“Resonant stroboscopic Rydberg dressing: electron-motion coupling and multi-body interactions”
“Resonant stroboscopic Rydberg dressing: electron-motion coupling and multi-body interactions”
“Measurement and feed-forward correction of the fast phase noise of lasers”
【Kenji Ohmori】 Ultrafast quantum computing with ultracold atom arrays at quantum speed limit
““Super-resolution” holographic optical tweezers array”
【Kenji Ohmori】 Ultrafast quantum computing with ultracold atom arrays at quantum speed limit
【Kenji Ohmori】 Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Takafumi Tomita】 Ultrafast Rydberg experiment with ultracold atoms in optical tweezers
“Proposal for simulating quantum spin models with the Dzyaloshinskii-Moriya interaction using Rydberg atoms and the construction of asymptotic quantum many-body scar states”
“Atom Camera: Super-resolution scanning microscope of a light pattern with a single ultracold atom”
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Kenji Ohmori】Ultrafast quantum computing with ultracold atom arrays at quantum speed limit
【Takafumi Tomita】Ultra-precise holographic optical tweezers array
【Vincent Lienhard】Generation of motional squeezed states in an optical tweezers
【Hikaru Tamura】 Probing novel nonequilibrium dynamics of Bose gasses in an optical box
【Sylvain de Léséleuc】A Rb-based cold-atom quantum computer
“Strong Spin-Motion Coupling in the Ultrafast Dynamics of Rydberg Atoms”
Phys. Rev. Lett. 133, 093405 (2024). arXiv:2311.15575 (2023).
“Generation of 480 nm picosecond pulses for ultrafast excitation of Rydberg atoms”
“Ultra-precise holographic optical tweezers array”
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Sylvain de Léséleuc】Ultrafast Rydberg experiments with ultracold atoms
【Sylvain de Léséleuc】Making a Cold-Atom Quantum Computer
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Takafumi Tomita】 Ultrafast Rydberg experiments with ultracold atoms in optical tweezers
【Sylvain de Léséleuc】Ultrafast Rydberg experiments with ultracold atoms
【Sylvain de Léséleuc】Ultrafast Rydberg experiments with ultracold atoms
【Vikas Chauhan】Ultrafast Quantum Many-body Dynamics of Rydberg Excited Atomic Mott-Insulator Lattice
【Kenji Ohmori】Ultrafast quantum computing with ultracold atom arrays at quantum speed limit
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Takafumi Tomita】 Rapid development of cold-atom quantum computers and their prospect (version May 2024)
【Kenji Ohmori】Ultrafast quantum computing with ultracold atom arrays at quantum speed limit
【Takuya Matsubara】High Density Rydberg Gas Produced by Ultrashort Pulse Excitation and Spontaneous Ionization Induced by Rydberg-Rydberg Interactions
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Takuya Matsubara】High Density Rydberg Gas Produced by Picosecond Laser Pulses Toward Ultrafast Quant um Simulation
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Sylvain de Léséleuc】Strong Spin-Motion Coupling in the Ultrafast Quantum Many-body Dynamics of Rydberg Atoms in a Mott-insulator Lattice
【Kenji Ohmori】Development of coldatom based quantum simulators by optical control with precisions on the attosecond temporal and nanometer spatial scales and their applications to quantum computing
【Takafumi Tomita】Ultrafast Rydberg experiments with ultracold atoms in optical tweezers
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Karthikeyan Ganesan】Towards coherent excitation to Rydberg states using home-made lasers
【Arnab Maity】Characterization of chirped Bragg grating for cold-atom quantum computing applications
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Sylvain de Léséleuc】Motion of atoms in optical tweezers: from thermal to squeezing and entanglement
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
“Picosecond-scale ultrafast many-body dynamics in an ultracold Rydberg-excited atomic Mott insulator”
Phys. Rev. Lett. 131, 123201 (2023). arXiv:2201.09590 (2022).
【Vikas Chauhan】Ultrafast Quantum Simulator using Ultracold Rydberg-excited Atomic Mott-insulator
【Yeelai Chew】Ultrafast energy exchange between two single Rydberg atoms on a nanosecond timescale
【Mahesh Tirumalasetty Panduranga】Towards high-fidelity ultrafast excitation of atoms to Rydberg states
【Sylvain de Léséleuc】Ultrafast Control of Rydberg Atoms with Pulsed Lasers for Cold-Atom Quantum Computing and Simulation
【Aito Tanaka】Non-destructive state-selective imaging of cold Rubidium atoms with a compact and integrated laser system
【Metkham Pravongviengkham】Manipulation of cold atoms with the MuQuans laser system
【Akane Makino】The Moonshot Research and Development Program of Japan
【Tom Denecker-Desmonts】Cancellation of laser phase noise for high fidelity quantum gate
【Sylvain de Léséleuc】Ultrafast Rydberg experiments with ultracold atoms in optical tweezers
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Sylvain de Léséleuc】Ultrafast Rydberg Experiments With Ultracold Atoms in Optical Tweezers
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Vikas Chauhan】Ultrafast Quantum Simulator Using Ultracold Rydberg Excited AtomicMott-Insulator
【Kenji Ohmori】Japan’s Policy on Quantum Technology and Innovation
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Jean-Samuel Tettekpoe】Towards assembly of arrays of 1000 atoms
【Kenji Ohmori】Ultrafast Quantum Computing with Ultracold Atom Arrays at Quantum Speed Limit
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
【Romain Martin】Generation of Squeezed State of Motion for Atoms in Optical Tweezers
【Sylvain de Léséleuc】Ultrafast Rydberg Experiments With Ultracold Atoms in Optical Tweezers
【Tom Denecker-Desmonts】Fast feed-forward cancellation of laser phase noise for cold atom experiments
【Sylvain de Léséleuc】Ultrafast Rydberg Experiments with Ultracold Atoms in Optical Tweezers The 54th Annual eeting of the APS(American Physical Society)
【Sylvain de Léséleuc】Cold-atom-based quantum computer: roadmap
【T. Denecker, S. de Léséleuc, Yeelai Chew, Takafumi Tomita, T.P. Mahesh, R. Villela, Seiji Sugawa, Kenji Ohmori】Fast feed-forward cancellation of laser phase noise for cold atom experiments
“Optical tweezers throw and catch single atoms”
Optica Vol. 10, Issue 3, pp. 401-406 (2023).arXiv:2212.01037 (2022).
【Sylvain de Léséleuc】Rydberg Interaction Calculators: The Experimentalists Guides to the Rydberg Galaxy
【Takafumi Tomita】Atom Camera: Super-resolution scanning microscopy of a light field with an ultracold single atom
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays
【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays
【Sylvain de Léséleuc】Ultrafast Rydberg experiments with ultracold atoms in optical tweezers
【Kenji Ohmori】Ultrafast quantum computer/simulator with attosecond precision
【Kenji Ohmori】Ultrafast quantum computer/simulator operating at the single-atom level
“Ultrafast energy exchange between two single Rydberg atoms on a nanosecond timescale”
【Takafumi Tomita】Atom Camera: Super-resolution imaging of an optical field with a single ultracold atom in an optical tweezers
Sylvain de Léséleuc
【Kenji Ohmori】”Ultrafast and ultracold quantum simulator/computer with attosecond precision”
【Sylvain de Léséleuc】Raman-sideband cooling of 800 atoms to the quantum ground-state of optical tweezers
【Yeelai Chew】Ultrafast energy exchange between two single Rydberg atoms on the nanosecond timescale
【Rene Villela】Coherence time of the spin degree of freedom of neutral atoms in optical tweezers
【Kenji Ohmori】Ultrafast and ultracold quantum simulator/computer with attosecond precision
【Kenji Ohmori】Japan’s quantum-technology testbeds
【Kenji Ohmori】Ultrafast and ultracold quantum simulator/computer with attosecond precision
【Kenji Ohmori】Ultrafast and ultracold quantum simulator/computer with attosecond precision
“Engineering quantum wave-packet dispersion with a strong non-resonant femtosecond laser pulse”
【Tirumalasetty Panduranga Mahesh】Observation of Rabi oscillations between electronic orbitals using ultrafast pulsed laser
【Vineet Bharti】Ultrafast quantum simulations with interacting Rydberg atoms in a Mott insulator lattice
“Optimal control for suppressing wave packet spreading with strong non-resonant laser pulses”
【Kenji Ohmori】Ultrafast and Ultracold Quantum Simulator with Attosecond Precision
【Kenji Ohmori】Ultrafast and ultracold quantum simulator/computer with attosecond precision
【Kenji Ohmori】Ultrafast and Ultracold Quantum Simulator with Attosecond Precision
“Ultrafast creation of overlapping Rydberg electrons in an atomic BEC and Mott-insulator lattice”
“Attosecond Control of Restoration of Electronic Structure Symmetry”
“Ultrafast Coherent Control of Condensed Matter with Attosecond Precision”
“Time-domain Ramsey interferometry with interacting Rydberg atoms”
“Direct observation of ultrafast many-body electron dynamics in an ultracold Rydberg gas”
“Simultaneous manipulation and observation of multiple ro-vibrational eigenstates in solid para-hydrogen”
“Real-time observation of phase-controlled molecular wave-packet interference”
“Manipulation and visualization of two-dimensional phase distribution of vibrational wave functions in solid parahydrogen crystal”
“Quantum Superrotor”
“Optically Engineered Quantum States in Ultrafast and Ultracold Systems”
“Theoretical/numerical study on strong-laser-induced interference in the B state of I2”
“All-Optical Control and Visualization of Ultrafast Two-Dimensional Atomic Motions in a Single Crystal of Bismuth”
“Optically engineered quantum interference of delocalized wavefunctions in a bulk solid : The example of solid para-hydrogen”
“Wavepacket interferometry for nuclear densities and flux densities”
Molecular Physics, 111, 1691-1696 (2013). (invited paper)
“Optical manipulation of coherent phonons in superconducting YBa2Cu3O7-d thin films”
Faraday Discuss., 153, 375–382 (2011). (invited paper)
“Strong-Laser-Induced Quantum Interference”
“Optical modification of the vibrational distribution of the iodine molecule”
“Wave packet interferometry with attosecond precision and picometric structure”
“Ultrafast Fourier transform with a femtosecond-laser-driven molecule”
“Optical control and mode selective excitation of coherent phonons in YBa2Cu3O7-d”
“Actively tailored spatiotemporal images of quantum interference on the picometer and femtosecond scales”
“Wave-packet and coherent control dynamics”
“Development of ultrahigh-precision coherent control and its applications”
“READ and WRITE amplitude and phase information by using high-precision molecular wave-packet interferometry”
“Implementation of quantum gate operations in molecules with weak laser fields”
“Visualizing picometric quantum ripples of ultrafast wave-packet interference”
“High precision molecular wave-packet interferometry with Hg-Ar dimmers”
40.“Resonant stroboscopic Rydberg dressing: electron-motion coupling and multi-body interactions”
39.“Measurement and feed-forward correction of the fast phase noise of lasers”
38.““Super-resolution” holographic optical tweezers array”
37.“Proposal for simulating quantum spin models with the Dzyaloshinskii-Moriya interaction using Rydberg atoms and the construction of asymptotic quantum many-body scar states”
36.“Atom Camera: Super-resolution scanning microscope of a light pattern with a single ultracold atom”
35.“Strong Spin-Motion Coupling in the Ultrafast Dynamics of Rydberg Atoms”
Phys. Rev. Lett. 133, 093405 (2024). arXiv:2311.15575 (2023).
34.“Generation of 480 nm picosecond pulses for ultrafast excitation of Rydberg atoms”
33.“Ultra-precise holographic optical tweezers array”
32.“Picosecond-scale ultrafast many-body dynamics in an ultracold Rydberg-excited atomic Mott insulator”
Phys. Rev. Lett. 131, 123201 (2023). arXiv:2201.09590 (2022).
31.“Optical tweezers throw and catch single atoms”
Optica Vol. 10, Issue 3, pp. 401-406 (2023).arXiv:2212.01037 (2022).
30.“Ultrafast energy exchange between two single Rydberg atoms on a nanosecond timescale”
29.“Engineering quantum wave-packet dispersion with a strong non-resonant femtosecond laser pulse”
28.“Optimal control for suppressing wave packet spreading with strong non-resonant laser pulses”
27.“Ultrafast creation of overlapping Rydberg electrons in an atomic BEC and Mott-insulator lattice”
26.“Attosecond Control of Restoration of Electronic Structure Symmetry”
25.“Ultrafast Coherent Control of Condensed Matter with Attosecond Precision”
24.“Time-domain Ramsey interferometry with interacting Rydberg atoms”
23.“Direct observation of ultrafast many-body electron dynamics in an ultracold Rydberg gas”
22.“Simultaneous manipulation and observation of multiple ro-vibrational eigenstates in solid para-hydrogen”
21.“Real-time observation of phase-controlled molecular wave-packet interference”
20.“Manipulation and visualization of two-dimensional phase distribution of vibrational wave functions in solid parahydrogen crystal”
19.“Quantum Superrotor”
18.“Optically Engineered Quantum States in Ultrafast and Ultracold Systems”
17.“Theoretical/numerical study on strong-laser-induced interference in the B state of I2”
16.“All-Optical Control and Visualization of Ultrafast Two-Dimensional Atomic Motions in a Single Crystal of Bismuth”
15.“Optically engineered quantum interference of delocalized wavefunctions in a bulk solid : The example of solid para-hydrogen”
14.“Wavepacket interferometry for nuclear densities and flux densities”
Molecular Physics, 111, 1691-1696 (2013). (invited paper)
13.“Optical manipulation of coherent phonons in superconducting YBa2Cu3O7-d thin films”
Faraday Discuss., 153, 375–382 (2011). (invited paper)
12.“Strong-Laser-Induced Quantum Interference”
11.“Optical modification of the vibrational distribution of the iodine molecule”
10.“Wave packet interferometry with attosecond precision and picometric structure”
9.“Ultrafast Fourier transform with a femtosecond-laser-driven molecule”
8.“Optical control and mode selective excitation of coherent phonons in YBa2Cu3O7-d”
7.“Actively tailored spatiotemporal images of quantum interference on the picometer and femtosecond scales”
6.“Wave-packet and coherent control dynamics”
5.“Development of ultrahigh-precision coherent control and its applications”
4.“READ and WRITE amplitude and phase information by using high-precision molecular wave-packet interferometry”
3.“Implementation of quantum gate operations in molecules with weak laser fields”
2.“Visualizing picometric quantum ripples of ultrafast wave-packet interference”
1.“High precision molecular wave-packet interferometry with Hg-Ar dimmers”
45.【Kenji Ohmori】 Ultrafast quantum computing with ultracold atom arrays at quantum speed limit
44.【Kenji Ohmori】 Ultrafast quantum computing with ultracold atom arrays at quantum speed limit
43.【Kenji Ohmori】 Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
42.【Takafumi Tomita】 Ultrafast Rydberg experiment with ultracold atoms in optical tweezers
41.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
40.【Kenji Ohmori】Ultrafast quantum computing with ultracold atom arrays at quantum speed limit
39.【Hikaru Tamura】 Probing novel nonequilibrium dynamics of Bose gasses in an optical box
38.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
37.【Sylvain de Léséleuc】Ultrafast Rydberg experiments with ultracold atoms
36.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
35.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
34.【Takafumi Tomita】 Ultrafast Rydberg experiments with ultracold atoms in optical tweezers
33.【Sylvain de Léséleuc】Ultrafast Rydberg experiments with ultracold atoms
32.【Kenji Ohmori】Ultrafast quantum computing with ultracold atom arrays at quantum speed limit
31.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
30.【Takafumi Tomita】 Rapid development of cold-atom quantum computers and their prospect (version May 2024)
29.【Kenji Ohmori】Ultrafast quantum computing with ultracold atom arrays at quantum speed limit
28.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
27.【Takuya Matsubara】High Density Rydberg Gas Produced by Picosecond Laser Pulses Toward Ultrafast Quant um Simulation
26.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
25.【Kenji Ohmori】Development of coldatom based quantum simulators by optical control with precisions on the attosecond temporal and nanometer spatial scales and their applications to quantum computing
24.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
23.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
22.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
21.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
20.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
19.【Kenji Ohmori】Japan’s Policy on Quantum Technology and Innovation
18.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
17.【Kenji Ohmori】Ultrafast Quantum Computing with Ultracold Atom Arrays at Quantum Speed Limit
16.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays at quantum speed limit
15.【Sylvain de Léséleuc】Rydberg Interaction Calculators: The Experimentalists Guides to the Rydberg Galaxy
14.【Takafumi Tomita】Atom Camera: Super-resolution scanning microscopy of a light field with an ultracold single atom
13.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays
12.【Kenji Ohmori】Ultrafast quantum simulation and quantum computing with ultracold atom arrays
11.【Sylvain de Léséleuc】Ultrafast Rydberg experiments with ultracold atoms in optical tweezers
10.【Kenji Ohmori】Ultrafast quantum computer/simulator with attosecond precision
9.【Kenji Ohmori】Ultrafast quantum computer/simulator operating at the single-atom level
8.【Kenji Ohmori】”Ultrafast and ultracold quantum simulator/computer with attosecond precision”
7.【Kenji Ohmori】Ultrafast and ultracold quantum simulator/computer with attosecond precision
6.【Kenji Ohmori】Japan’s quantum-technology testbeds
5.【Kenji Ohmori】Ultrafast and ultracold quantum simulator/computer with attosecond precision
4.【Kenji Ohmori】Ultrafast and ultracold quantum simulator/computer with attosecond precision
3.【Kenji Ohmori】Ultrafast and Ultracold Quantum Simulator with Attosecond Precision
2.【Kenji Ohmori】Ultrafast and ultracold quantum simulator/computer with attosecond precision
1.【Kenji Ohmori】Ultrafast and Ultracold Quantum Simulator with Attosecond Precision
22.【Takafumi Tomita】Ultra-precise holographic optical tweezers array
21.【Vincent Lienhard】Generation of motional squeezed states in an optical tweezers
20.【Sylvain de Léséleuc】A Rb-based cold-atom quantum computer
19.【Sylvain de Léséleuc】Making a Cold-Atom Quantum Computer
18.【Sylvain de Léséleuc】Ultrafast Rydberg experiments with ultracold atoms
17.【Vikas Chauhan】Ultrafast Quantum Many-body Dynamics of Rydberg Excited Atomic Mott-Insulator Lattice
16.【Takuya Matsubara】High Density Rydberg Gas Produced by Ultrashort Pulse Excitation and Spontaneous Ionization Induced by Rydberg-Rydberg Interactions
15.【Sylvain de Léséleuc】Strong Spin-Motion Coupling in the Ultrafast Quantum Many-body Dynamics of Rydberg Atoms in a Mott-insulator Lattice
14.【Takafumi Tomita】Ultrafast Rydberg experiments with ultracold atoms in optical tweezers
13.【Sylvain de Léséleuc】Motion of atoms in optical tweezers: from thermal to squeezing and entanglement
12.【Yeelai Chew】Ultrafast energy exchange between two single Rydberg atoms on a nanosecond timescale
11.【Sylvain de Léséleuc】Ultrafast Control of Rydberg Atoms with Pulsed Lasers for Cold-Atom Quantum Computing and Simulation
10.【Sylvain de Léséleuc】Ultrafast Rydberg Experiments With Ultracold Atoms in Optical Tweezers
9.【Vikas Chauhan】Ultrafast Quantum Simulator Using Ultracold Rydberg Excited AtomicMott-Insulator
8.【Sylvain de Léséleuc】Ultrafast Rydberg Experiments With Ultracold Atoms in Optical Tweezers
7.【Sylvain de Léséleuc】Ultrafast Rydberg Experiments with Ultracold Atoms in Optical Tweezers The 54th Annual eeting of the APS(American Physical Society)
6.【T. Denecker, S. de Léséleuc, Yeelai Chew, Takafumi Tomita, T.P. Mahesh, R. Villela, Seiji Sugawa, Kenji Ohmori】Fast feed-forward cancellation of laser phase noise for cold atom experiments
5.【Sylvain de Léséleuc】Raman-sideband cooling of 800 atoms to the quantum ground-state of optical tweezers
4.【Yeelai Chew】Ultrafast energy exchange between two single Rydberg atoms on the nanosecond timescale
3.【Rene Villela】Coherence time of the spin degree of freedom of neutral atoms in optical tweezers
2.【Tirumalasetty Panduranga Mahesh】Observation of Rabi oscillations between electronic orbitals using ultrafast pulsed laser
1.【Vineet Bharti】Ultrafast quantum simulations with interacting Rydberg atoms in a Mott insulator lattice
15.【Karthikeyan Ganesan】Towards coherent excitation to Rydberg states using home-made lasers
14.【Arnab Maity】Characterization of chirped Bragg grating for cold-atom quantum computing applications
13.【Vikas Chauhan】Ultrafast Quantum Simulator using Ultracold Rydberg-excited Atomic Mott-insulator
12.【Mahesh Tirumalasetty Panduranga】Towards high-fidelity ultrafast excitation of atoms to Rydberg states
11.【Aito Tanaka】Non-destructive state-selective imaging of cold Rubidium atoms with a compact and integrated laser system
10.【Metkham Pravongviengkham】Manipulation of cold atoms with the MuQuans laser system
9.【Akane Makino】The Moonshot Research and Development Program of Japan
8.【Tom Denecker-Desmonts】Cancellation of laser phase noise for high fidelity quantum gate
7.【Sylvain de Léséleuc】Ultrafast Rydberg experiments with ultracold atoms in optical tweezers
6.【Jean-Samuel Tettekpoe】Towards assembly of arrays of 1000 atoms
5.【Romain Martin】Generation of Squeezed State of Motion for Atoms in Optical Tweezers
4.【Tom Denecker-Desmonts】Fast feed-forward cancellation of laser phase noise for cold atom experiments
3.【Sylvain de Léséleuc】Cold-atom-based quantum computer: roadmap
2.【Takafumi Tomita】Atom Camera: Super-resolution imaging of an optical field with a single ultracold atom in an optical tweezers
1.Sylvain de Léséleuc
ROOM
314TEL
0564-55-7362Link
Doing interesting science
Reading arabic poetry
“if man had two valleys of gold he would desire a third one, and nothing fills his chest except the dust in his grave”
| 2024-Now | PhD student at Ohmori group, Institute for Molecular Science, Sokendai |
| 2021-2024 | Master Degree: Quantum Light Materials and Nano sciences, Université Paris-Saclay (France) |
| 2020-2021 | undergrad degree (fundamental physics) at Sorbonne university |
| 2017-2020 | undergrad degree (fundamental physics) at USTHB university |
ROOM
314TEL
0564-55-7362Link
Cricket and gardening
Listening to music, Tea(Indian Chai), Dogs, Sweets, trees, and plants
Traveling alone
| 2024-Today | Post-doctoral Fellow, Department of Photo-Molecular Science, Institute for Molecular Science, NINS |
| 2011-2018 | PhD Degree, Department of Physics, Indian Institute of Science Bangalore, India. |
| 2008-2010 | Master of Science (Physics), Banaras Hindu University, Varanasi, India. |
|
Pushpander Kumar and Vasant Natarajan,
“Precise measurement of hyperfine structure in the 3S1/2 state of 7Li” Scientific Reports, 7, 13204 (2017). |
|
|
Pushpander Kumar, Alok K Singh, Vineet Bharti, Vasant Natarajan and Kanhaiya Pandey,
“Study of CPO resonances on the intercombination line in 173Yb
” Journal of Physics B, 51, 035502 (2017) |
|
|
K D Rathod, P K Singh and Vasant Natarajan,
“Cold beam of isotopically pure Yb atoms by deflection using 1D-optical molasses” Pramana, 83, 387 (2014) |
ROOM
314TEL
0564-55-7362Link
Sport, cooking, and traveling
Only girl researcher in the lab
Can not eat the squishy corner of the bento
| 2024-Now | PhD student at Ohmori group, Institute for Molecular Science, Sokendai |
| 2023-2024 | Master Degree: Quantum Light Materials and Nano sciences, Université Paris-Saclay (France) |
| 2020-2024 | Bachelor Degree & Master Degree : Institut d’Optique Graduate School (France) |
| 2018-2020 | Classes Preparatoires Lycée Lakanal (France) |
ROOM
314TEL
0564-55-7362Link
Bouldering, callygraphy, and painting
I can eat infinitely without taking weight (so far)
Stuck at “nihongo jouzu” level
| 2024-Now | PhD Student in the Ohmori Group in the Institute for Molecular Science (IMS) |
| 2019-2024 | Undergraduate and Graduate in Ecole Normale Superieure de Paris Saclay (France) |
| 2024 | Internship at the Beijing Academy of Quantum Information Science (BAQIS) on Cold Yb atoms trapped in optical tweezers |
| 2022 | Internship at the Institute for Molecular Sciences (IMS) on Cold Rb atoms trapped in optical tweezers |
| 2022 | “Physics and Chemistry” replacement teacher in Highschool and “Numerical Methods for Physics” tutor in Université Paris Saclay (France) |
ROOM
321TEL
0564-55-7362Trip, cafe crawl, Eat lots of good food
HAWAII, OKINAWA, DISNEY
“Mrs. GREEN APPLE, Number_i”
In charge of overseas business trips in the Ohmori Laboratory
| Dec 2021-Today | Postdoctoral Fellow, Department of Photo-Molecular Science, Institute for Molecular Science |
| July 2016-Aug 2021 | Ph.D. in Quantum Optics, Indian Institute of Technology Patna, India. |
| July2014-June2016 | Master of Science (Physics), Institute of Science, Banaras Hindu University, Varanasi, India. |
| July 2011-June2014 | Bachelor of Science (Hons) Physics, Institute of Science, Banaras Hindu University, Varanasi, India |
|
Vikas Singh Chauhan, Dixith M, Praveen Kumar, Rohit Kumar, Sumit Bhushan, and Raghavan K Easwaran,
“Measurement of Dispersive Properties of Multi Window Electromagnetically Induced Transparency in Rubidium Atomic Vapor Medium by Using Spatial Light Modulator” Optik-International Journal of Light and Electron Optics, 225, 165707 (2021). |
|
|
Vikas Singh Chauhan, Rohit Kumar, Dixith Manchaiah, and Raghavan K Easwaran,
“Enhancement of the Electromagnetically Induced Transparency and Absorption Signals in 85Rb Atomic Vapor Medium by using the Small External Magnetic Field” J. Opt. Soc. Am. B, Vol. 38, No.2, 414012 (2021) |
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Vikas S. Chauhan, Rohit Kumar, Dixith Manchaiah, Praveen Kumar and Raghavan K Easwaran,
“Narrowing of Electromagnetically Induced Transparency by using Structured Coupling Light in 85Rb Atomic Vapor Medium” Laser Phys.Vol. 30, 065203 (2020). |
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Vikas S. Chauhan, Dixith Manchaiah, Sumit Bhushan, Rohit Kumar, and Raghavan K Easwaran,
“Theoretical Design of Quantum Memory Unit For Under-Water Quantum Communication Using Electromagnetically Induced Transparency Protocol in Ultracold 87Rb Atoms”, International Journal of Quantum Information, 18, 2050027 (2020). |
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Sumit Bhushan, Vikas S. Chauhan, and Raghavan K Easwaran,
“Broadband Quantum Memory Using Electromagnetically Induced Transparency in Atomic Medium” Journal of Modern Optics, Vol. 66, No. 9, 992-997 (2019). |
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Sumit Bhushan, Vikas S. Chauhan, and Raghavan K Easwaran,
“Effect of Magnetic Field on a Multi Window Ladder Type Electromagnetically Induced Transparency with 87Rb Atoms in Vapour Cell” Physics Letters A, 383, 125885 (2019). |
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Sumit Bhushan, Vikas S. Chauhan, and Raghavan K Easwaran,
“Ultracold Rydberg Atoms for Efficient Storage of Terahertz Frequency Signals using Electromagnetically Induced Transparency” Physics Letters A, 382, 3500-3504 (2018). |
Cooking, Sport (Rugby and Volley-ball) and Music (Drum and guitar, especially for Metal music \m/)
C2H5OH and playing Tennis versus Sylvain
Physics
| 2023-Today | Research Software Engineer, Department of Photo-Molecular Science, Institute for Molecular Science |
| 2022-2023 | Teaching Assistant Professor, Chemistry Department, Nantes University (France) |
| 2019-2021 | Post-Doctoral Fellow, Research Center for Computational Science, Institute for Molecular Science (Dr. Okazaki group) |
| 2016 | JSPS Summer Program, Fukui Institute for Fundamental Chemistry, Kyoto (Pr. Morokuma group) |
| 2014-2017 | PhD Degree, CEISAM lab, Nantes University (Pr. Jacquemin group) |
| Z. Bouchouireb, D. Olivier-Jimenez, T. Jaunet-Lahary, S. H. Thany and J.Y. Le Questel,
“Navigating the complexities of docking tools with nicotinic receptors and acetylcholine binding proteins in the realm of neonicotinoids,” Ecotoxicol. Environ. Saf. 281, 116582 (2024) |
|
| J. Ohnuki, T. Jaunet-Lahary, A. Yamashita, and K. Okazaki,
“Accelerated Molecular Dynamics and AlphaFold Uncover a Missing Conformational State of Transporter Protein OxlT,” J. Phys. Chem. Letters 15, 725–732 (2024) |
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| T. Jaunet-Lahary, T. Shimamura, M. Hayashi, N. Nomura, K. Hirasawa, T. Shimizu, M. Yamashita, K. Kojima, Y. Sudo, T. Tamura, H. Iwanari, T. Hamakubo, S. Iwata, K. Okazaki, T. Hirai, A. Yamashita,
“Structure and mechanism of oxalate transporter OxlT in an oxalate-degrading bacterium in the gut microbe,” Nat. Commun. 14, 1730 (2023) |
|
| D. Velic, C. Charlier, M. Popova, T. Jaunet-Lahary, Z. Bouchouireb, S. Henry, P. Weigel, J. Y. Masson, A. D. Laurent, I. Nabiev, F. Fleury,
“Interactions of the Rad51 Inhibitor DIDS with Human and Bovine Serum Albumins: Optical Spectroscopy and IsoThermal Calorimetry Approaches,” Biochimie, 167, 187-197 (2019). |
|
| T. Jaunet-Lahary, D. P. Vercauteren, F. Fleury and A. D. Laurent,
“Computational Simulations Determining Disulfonic Stilbene Derivatives Biodisponibility Within Human Serum Albumin,” Phys. Chem. Chem. Phys. 20 (26),18020-18030 (2018). |
|
| T. Jaunet-Lahary, A.D. Laurent, C. Laurence, M. Medved and D. Jacquemin,
“Exploring the Solvatochromism of Betaine 30 with Ab Initio Tools: From Accurate Gas-Phase Calculations to Implicit and Explicit Solvation Models,” Chem. Eur. J. 23 (17), 4108-4119 (2017). |
|
| T. Jaunet-Lahary, A. Goupille, D. Jacquemin, F. Fleury, J. Graton and A.D. Laurent,
“A Joint Theoretical and Experimental Study of the Behavior of the DIDS Inhibitor and its Derivatives,” J. Chem. Phys. Chem. 17 (15),2434-2445 (2016). |
|
| T. Jaunet-Lahary, D. Jacquemin, B. Legouin, J-Y. Le Questel, J-F. Cupif, L. Toupet, P. Uriac and J. Graton,
“Dissymmetric Molecular Tweezers in Host–Guest Complexes: Internal or External Complexation?,” J. Phys. Chem. C 119 (7), 3771-3779 (2015). |
|
| T. Jaunet-Lahary, A. Chantzis, K.J. Chen, A.D. Laurent and D. Jacquemin,
“Designing Efficient Azobenzene and Azothiophene Nonlinear Optical Photochromes,” J. Phys. Chem. C 118 (49), 28831-28841 (2014). |
|
| U. Bussy, P. Giraudeau, V. Silvestre, T. Jaunet-Lahary, V. Ferchaud-Roucher, M. Krempf, S. Akoka, I. Tea and M. Boujtita,
“In Situ NMR spectroelectrochemistry for the structure elucidation of unstable intermediate metabolites,” Anal. Bioanal. Chem.405, 5817-5824 (2013). |
Music, Sports (only watching), and taking the plane
Keeping my ear to the ground in any situation
French
| 2024-Today | Post-doctoral Fellow, Department of Photo-Molecular Science, Institute for Molecular Science |
| 2021-2023 | Post-doctoral Fellow, Quantic team, Ecole Normale Supérieure Paris |
| 2016-2020 | PhD Degree, Institut d’Optique, Université Paris-Saclay, Palaiseau, France |
| P. Scholl, M. Schuler, H. J. Williams, A. A. Eberharter, D. Barredo, K. N. Schymik, V. Lienhard, L.-P. Henry, T. C. Lang, T. Lahaye, A. M. Läuchli and A. Browaeys,
“Quantum simulation of 2D antiferromagnets with hundreds of Rydberg atoms,” Nature 595, 233 (2021). |
|
| K. N. Schymik, V. Lienhard, D. Barredo, P. Scholl, H. J. Williams, A. Browaeys and T. Lahaye,
“Enhanced atom-by-atom assembly of arbitrary tweezer arrays,” Phys. Rev. A 102, 063107 (2020). |
|
| V. Lienhard, P. Scholl, S. Weber, D. Barredo, S. de Léséleuc, R. Bai, N. Lang, M. Fleischhauer, H. P. Büchler, T. Lahaye and A. Browaeys,
“Realization of a density-dependent Peierls phase in a synthetic, spin-orbit coupled Rydberg system,” Phys. Rev. X 10, 021031 (2020). |
|
| D. Barredo, V. Lienhard, P. Scholl, S. de Léséleuc, T. Boulier, A. Browaeys and T. Lahaye,
“Three-dimensional trapping of individual Rydberg atoms in ponderomotive bottle beam traps,” Phys. Rev. Lett. 124, 023201 (2020). |
|
| S. de Léséleuc, V. Lienhard, P. Scholl, D. Barredo, S. Weber, N. Lang, H. P. Büchler, T. Lahaye and A. Browaeys,
“Observation of a symmetry-protected topological phase of interacting bosons with Rydberg atoms,” Science 365, 775 (2019). |
|
| D. Barredo, V. Lienhard, S. de Léséleuc, T. Lahaye and A. Browaeys,
“Synthetic three-dimensional atomic structures assembled atom by atom,” Nature 561, 79 (2018). |
|
| S. Weber, S. de Léséleuc, V. Lienhard, D. Barredo, T. Lahaye, A. Browaeys and H. P. Büchler,
“Topologically protected edge states in small Rydberg systems,” Quantum Sci. Technol. 3, 044001 (2018). |
|
| V. Lienhard, S. de Léséleuc, D. Barredo, T. Lahaye, A. Browaeys, M. Schuler, L.-P. Henry and A. M. Läuchli,
“Observing the Space- and Time-Dependent Growth of Correlations in Dynamically Tuned Synthetic Ising Models with Antiferromagnetic Interactions,” Phys. Rev. X 8, 021070 (2018). |
|
| S. de Léséleuc, D. Barredo, V. Lienhard, A. Browaeys and T. Lahaye,
“Analysis of imperfections in the coherent optical excitation of single atoms to Rydberg states,” Phys. Rev. A 97, 053803 (2018). |
|
| S. de Léséleuc, S. Weber, V. Lienhard, D. Barredo, H. P. Büchler, T. Lahaye and A. Browaeys,
“Accurate mapping of multilevel Rydberg atoms on interacting spin-1/2 particles for the quantum simulation of Ising models,” Phys. Rev. Lett. 120, 113602 (2018). |
|
| S. de Léséleuc, D. Barredo, V. Lienhard, A. Browaeys and T. Lahaye,
“Optical control of the resonant dipole-dipole interaction between Rydberg atoms,” Phys. Rev. Lett. 119, 053202 (2017). |
|
| D. Barredo, S. de Léséleuc, V. Lienhard, T. Lahaye and A. Browaeys,
“An atom-by-atom assembler of defect-free arbitrary two-dimensional atomic arrays,” Science 354, 1021 (2016). |
ROOM
312TEL
0564-55-7387Dogs (2 Jack Russell Terriers and 2 Border Collies)
Patisserie
Swimming
Research support services
Exploring new places with my family
| 2023-Today | Research Assistant Professor, Department of Photo-Molecular Science, Institute for Molecular Science |
| 2020-2023 | Research Fellow, Purdue University (Prof. Hung group) |
| 2018-2020 | Research Fellow, University of Michigan (Prof. Kuzmich group) |
| 2015-2018 | PhD, University of Electro-Communications, Chofu, Tokyo (supervised by Prof. Nakagawa) |
| Xinchao Zhou, Hikaru Tamura, Tzu-Han Chang, and Chen-Lung Hung,
“Trapped Atoms and Superradiance on an Integrated Nanophotonic Microring Circuit,” Phys. Rev. X 14, 031004 (2024). |
|
| Sambit Banerjee, Kai Zhou, Shiva Kant Tiwari, Hikaru Tamura, Rongjie Li, Panayotis Kevrekidis, Simeon I. Mistakidis, Valentin Walther, and Chen-Lung Hung,
“Collapse of a quantum vortex in an attractive two-dimensional Bose gas,” arXiv:2406.00863 (2024). |
|
| Hikaru Tamura, Cheng-An Chen, Chen-Lung Hung,
“Observation of self-patterned defect formation in atomic
superfluids–from ring dark solitons to vortex dipole necklaces,” Phys. Rev. X 13, 031029 (2023). |
|
| Hikaru Tamura, Sergei Khlebnikov, Cheng-An Chen, Chen-Lung Hung,
“Observation of self-oscillating supersonic flow across an acoustic
horizon in two dimensions,” arXiv:2304.10667 (2023). |
|
| Xinchao Zhou, Hikaru Tamura, Tzu-Han Chang, Chen-Lung Hung,
“Coupling single atoms to a nanophotonic whispering-gallery-mode
resonator via optical guiding,” Phys. Rev. Lett. 130, 103601 (2023). |
|
| Tzu-Han Chang, Xinchao Zhou, Hikaru Tamura, Chen-Lung Hung,
“Realization of efficient 3D tapered waveguide-to-fiber couplers on a
nanophotonic circuit,” Optics Express 30(18), 31643-31652 (2022). |
|
| H. Tamura, H. Nguyen, P.R. Berman, A. Kuzmich,
“Phase matching in lower dimensions,” Phys. Rev. Lett. 125, 163601 (2020). |
|
| Hikaru Tamura, Tomotake Yamakoshi, Ken’ichi Nakagawa,
“Analysis of coherent dynamics of a Rydberg-atom quantum simulator,” Phys. Rev. A 101, 043421 (2020). |
|
| J. Lampen, A. Duspayev, H. Nguyen, H. Tamura, P.R. Berman, A. Kuzmich,
“Hanbury Brown–Twiss Correlations for a Driven Superatom,” Phys. Rev. Lett. 123, 203603 (2019). |
|
| Naoto Watanabe, Hikaru Tamura, Mitsuru Musha, Ken’ichi Nakagawa,
“Optical frequency synthesizer for precision spectroscopy of Rydberg states of Rb atoms,” Jpn. J. Appl. Phys. 56 112401 (2017). |
|
| Hikaru Tamura, Tomoyuki Unakami, Jun He, Yoko Miyamoto, Ken’ichi Nakagawa,
“Highly uniform holographic microtrap arrays for single atom trapping using a feedback optimization of in-trap fluorescence measurements,” Optics Express 24(8), 8132-8141 (2016). |
N9322C Basic Spectrum Analyzer
Vegetable gardening: it has everything -> good exercise, relaxing, and turns into nice food ! And play Tennis with (only) Titouan
Bring more people to have fun in the lab
| 2024-Today | Team Leader, RIKEN Center for Quantum Computing |
| 2024-Today | Research Associate Professor, Department of Photo-Molecular Science, Institute for Molecular Science |
| 2019-2023 | Assistant Professor, Department of Photo-Molecular Science, Institute for Molecular Science |
| 2019 | Post-doctoral researcher, Institut d’Optique, group of Prof. Browaeys. |
| 2015-2018 | PhD Degree, Institut d’Optique, Université Paris-Saclay, Palaiseau, France. thesis: “Quantum simulation of spin models with assembled arrays of Rydberg atoms”. |
| 2013-2015 | Master Degree, Swiss Federal Institute of Technology (Etd), Zürich, Switzerland. thesis: “Generation and teleportation of qutrits: towards a quantum error correction code”. |
| 2010-2013 | Engineer Degree, Ecole Polytechnique, Palaiseau, France. |
| 2008-2010 | Preparatory classes – Mathematics and Physics, Lycée Faidherbe, Lille. |
| 2008 | Scientific baccalaureat with high honors, Lycée Diderot, Carvin. |
| 2022 | NINS Young Researcher Prize |
| 2020 | Highly Commended for International Quantum Technology Emerging Researcher Award |
| 2019 | Thesis Prize of the EDOM (Doctoral School “Ondes et Matières”) |
| 2017 | Doctoral School Science Day, best oral presentation |
| 2013 | Ecole Polytechnique Research Center Prize (bachelor thesis) |
| V. Bharti, S. Sugawa, M. Mizoguchi, M. Kunimi, Y. Zhang, S. de Léséleuc, T. Tomita, T. Franz, M. Weidemu ̈ller and K. Ohmori,
“Picosecond-Scale Ultrafast Many-Body Dynamics in an Ultracold Rydberg-Excited Atomic Mott Insulator,” Phys. Rev. Lett. 131, 123201 (2023). |
|
| H. Hwang, A. Byun, J. Park, S. de Léséleuc and J. Ahn,
“Optical tweezers throw and catch single atoms,” Optica 10, 401 (2023). |
|
| Y. Chew, T. Tomita, T.P. Mahesh, S. Sugawa, S. de Léséleuc and K. Ohmori,
“Ultrafast energy exchange between two single Rydberg atoms on a nanosecond timescale,” Nat. Photonics 16, 724 (2022). |
|
| V. Lienhard, P. Scholl, S. Weber, D. Barredo, S. de Léséleuc, R. Bai, N. Lang, M. Fleischhauer, H.P. Bu ̈chler, T. Lahaye and A. Browaeys,
“Realization of a Density-Dependent Peierls Phase in a Synthetic, Spin-Orbit Coupled Rydberg System,” Phys. Rev. X 10, 021031 (2020). |
|
| D. Barredo, V. Lienhard, P. Scholl, S. de Léséleuc, T. Boulier, A. Browaeys and T. Lahaye,
“Three-dimensional trapping of individual Rydberg atoms in ponderomotive bottle beam traps,” Phys. Rev. Lett. 124, 023201 (2020). |
|
| S. de Léséleuc, V. Lienhard, P. Scholl, D. Barredo, S. Weber, N. Lang, H.P. Büchler, T. Lahaye, and A. Browaeys,
“Observation of a symmetry protected topological phase of interacting bosons with Rydberg atoms,” Science 365, 775 (2019). |
|
| D. Barredo, V. Lienhard, S. de Léséleuc, T. Lahaye and A. Browaeys,
“Synthetic three-dimensional atomic structures assembled atom by atom,” Nature 561, 79 (2018). |
|
| S. Weber, S. de Léséleuc, V. Lienhard, D. Barredo, T. Lahaye, A. Browaeys and H.P. Büchler,
“Topologically protected edge states in small Rydberg systems,” Quantum Sci. Technol. 3, 044001 (2018). |
|
| V. Lienhard, S. de Léséleuc, D. Barredo, T. Lahaye, A. Browaeys, M. Schuler, L.-P. Henry, A.M. Läuchli,
“Observing the space- and time-dependent growth of correlations in dynamically tuned synthetic Ising antiferromagnets,” Phys. Rev. X 8, 021070 (2018). |
|
| S. de Léséleuc, D. Barredo, V. Lienhard, A. Browaeys and T. Lahaye,
“Analysis of imperfections in the coherent optical excitation of single atoms to Rydberg states,” Phys. Rev. A 97, 053803 (2018). |
|
| S. de Léséleuc, S. Weber, V. Lienhard, D. Barredo, H.P. Büchler, T. Lahaye, and A. Browaeys,
“Accurate mapping of multilevel Rydberg atoms on interacting spin-1/2 particles for the quantum simulation of Ising models,” Phys. Rev. Lett. 120, 113602 (2018). |
|
| S. de Léséleuc, D. Barredo, V. Lienhard, A. Browaeys and T. Lahaye,
“Optical control of the resonant dipole-dipole interaction between Rydberg atoms,” Phys. Rev. Lett. 119, 053202 (2017). |
|
| M. Marcuzzi, J. Minar, D. Barredo, S. de Léséĺeuc, H. Labuhn, T. Lahaye, A. Browaeys, E. Levi, and I. Lesanovsky,
“Facilitation dynamics and localization phenomena in Rydberg lattice gases with position disorder,” Phys. Rev. Lett. 118, 063606 (2017). |
|
| D. Barredo, S. de Léséleuc, V. Lienhard, T. Lahaye, and A. Browaeys,
“An atom-by-atom assembler of defect-free arbitrary 2d atomic arrays,” Science 354, 1021 (2016). |
|
| H. Labuhn, D. Barredo, S. Ravets, S. de Léséleuc, T. Macrì, T. Lahaye and A. Browaeys,
“Tunable two-dimensional arrays of single Rydberg atoms for realizing quantum Ising models,” Nature 534, 667 (2016). |
ROOM
321TEL
0564-55-7362Meat
Beer
WEBdesign・Youtube
Secretarial services for Ohmori group and others
ROOM
321TEL
0564-55-7362Travel
Gardening
DIY
In charge of domestic business trips in the Ohmori Laboratory and others
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313TEL
0564-55-7244Link
Travel and talking with people
Chocolate
Ehime
| April 2024-Today | Master with Ohmori group, Institute for Molecular Science |
| 2020-2024 | Bachelor of Science Engineering Kindai University |
ROOM
314TEL
0564-55-7362Link
Bouldering and Hiking
Mountain, Cats, Listening to music, Spicy food, Candy, and of courseC2H5OH
Waking up early, The sea, Banana, and Reggae music
| 2022-2023 | Master Degree (2nd year), Quantum, Light, Materials and Nano Sciences (Tracks nanodevices and nanotechnology) at Paris-Saclay University, France |
| 2021-2022 | Master Degree (1st year), Physics and Applications (Tracks condensed matter and nanotechnology) at Paris-Saclay University, France |
| 2018-2021 | Bachelor Degree in Physics and Applications at Paris-Saclay University, France |
ROOM
313TEL
0564-55-7244Link
Going on adventures
Physics, bikes, and nature
Kardashev Type I Civilization
| 2022-Feb-Mar | Internship at Ohmori Group, Institute of Molecular Science, Japan |
| 2020-2024 | Bachelor Degree in Physics at Kyoto University, Japan |
| 2019-2024 | MEXT Scholarship |
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313TEL
0564-55-7244Head pressing
Chigasaki, JAPAN
Coffee and Balzac
Promoting our laboratory both domestically and internationally, Helping to connect our laboratory with students and young researchers around the world
ROOM
321TEL
0564-55-7459LIVE-GYM, Going to the theater, Shogi (Japanese chess), and more
2015-2023 : NIKKEI inc. Staff Writer(business, cutting edge technology)
2023-present : Ohmori Lab. In charge of commercialization
The commercialization of large-scale and high-coherence fault-tolerant quantum computer with dynamical atom arrays promoted by the Ohmori Laboratory.
ROOM
312TEL
0564-55-7387Schrödinger’s Cat (Philosophy of Science)
Listening to music/movies, playing musical instruments
Chocolate
Laboratory management(Lab’s handywoman)
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313TEL
0564-55-7244Hiroshima, JAPAN
Music appreciation, Trip, Camera
Premium C.D. Notebook 7mm & Pilot V-corn
| 2023 | Bachelor of Engineering The University of Tokyo |
| 2023 | SRA, Department of Molecular Science, Institute for Molecular Science |
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313TEL
0564-55-7244Babysitter
C2H5OH
| 2022.10~present | Research Doctoral Fellow, Institute of Molecular Science, Japan |
| 2017.04~2022.09 | Doctor degree, School of Physical Sciences, The Graduate University for Advanced Studies (SOKENDAI) |
| 2015.04~2017.03 | Master degree, Graduate School and Faculty of Information Science and Electrical Engineering, Kyushu University |
| 2011.04~2015.03 | Bachelor degree, Department of Electrical Engineering and Computer Science, School of Engineering, Kyushu University |
| 2022 | SOKENDAI Prize |
| 2020 | JPS Autumn Meeting 2020, Division 1, Student Presentation Award |
| Y. Chew, T. Tomita, T.P. Mahesh, S. Sugawa, S. de Léséleuc and K. Ohmori,
“Ultrafast energy exchange between two single Rydberg atoms on a nanosecond timescale,” Nat. Photonics 16, 724 (2022). |
Nara, Japan
Browsing bookstores, Visiting museums, Taking photos
Bicycle, walk when it rains
| 2019.4-Today | Research assistant professor, Department of Photo-Molecular Science, Institute for Molecular Science |
| 2016.4-2019.3 | JSPS special researcher (DC1) |
| 2016.4-2019.3 | Doctor course study, Division of Physics and Astronomy, School of Science, Kyoto University |
| 2014.4-2016.3 | Master course study, Division of Physics and Astronomy, School of Science, Kyoto University |
| 2010.4-2014.3 | Bachelor course study, Undergraduate school of Engineering Science, Faculty of Engineering, Kyoto University |
| JPS Autumn Meeting 2016, Division 1, 5th Student Presentation Award(2017.3.18) | |
| ICAP2016, Best Student Poster Award(2016.7.28) |
| Y. Chew, T. Tomita, T.P. Mahesh, S. Sugawa, S. de Léséleuc and K. Ohmori,
“Ultrafast energy exchange between two single Rydberg atoms on a nanosecond timescale,” Nat. Photonics 16, 724 (2022). |
|
| “Dissipative Bose-Hubbard system with intrinsic two-body loss,” Takafumi Tomita, Shuta Nakajima, Yosuke Takasu and Yoshiro Takahashi Phys. Rev. A 99, 031601(R) (2019). | |
| “Observation of the Mott insulator to superfluid crossover of a driven-dissipative Bose-Hubbard system,” Takafumi Tomita, Shuta Nakajima, Ippei Danshita, Yosuke Takasu and Yoshiro Takahashi Science Advances 3, e1701513 (2017). | |
| “Topological Thouless pumping of ultracold fermions,” Shuta Nakajima, Takafumi Tomita, Shintaro Taie, Tomohiro Ichinose, Hideki Ozawa, Lei Wang, Matthias Troyer and Yoshiro Takahashi Nature Physics 12, 296-300 (2016). |
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0564-55-7387DIY store visits
Gardening
Technical support (mainly mechanical technology)
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0564-55-7348Camping, Driving
USA, Kochi Prefecture
ONE OK ROCK
Secretarial services for Prof. Ohmori and others
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0564-55-7348Fortune comes in by a merry gate.
secretarial services and others
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0564-55-7459Akagi Village, Gunma, JAPAN (now Shibukawa City)
Do my best at the situation
Sub Project Manager
| 1982-2009 | Toyota Central R&D Labs.,Inc. Engaged In-cylinder Engine Combustion Analysis Research using Laser Diagnostic Techniques |
| 2009-2015 | Manager, PR & IP section of TCRDL. |
| 2015-2022 | Secretary General, Toyota Physical and Chemical Research Institute. |
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0564-55-7244Kanagawa(→Nagasaki→Aichi), Japan
Trip, Eating (and Drinking)
The top 100 castles in Japan, Camera, Entertainment, and more!
Clerical assistant
ROOM
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0564-55-7387Gardening, watching sports and healthy diet
Overseas travel with a back pack (visited about 20 countries)
playing sports
Secretarial services for Prof. Ohmori and others
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0564-55-74591) Research of rewritable optical disks at NEC Corp.
2) IP support for R&D in NEC laboratories
Making Audio amp with vaccum tube, Radio Amature, Jogging
Hanshin Tigers
IP support for the MS project
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0564-55-7387Okayama, JAPAN
Classical, Modern jazz, AOR
GARDENING
Research assistance (management of electronic components [soldering, cables, etc.], programming of device control)
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0564-55-7459Mosaics, Illuminated manuscripts, Latin calligraphy
The Heart Asks Pleasure First -Michael Nyman-
I am the I
Intellectual property, contract-related clerical work, etc.
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0564-55-7459Golf (Goal: Score 100)
Driving -Seseragi Highway, etc.
If you keep doing what is right and true (sincerity),things will work out
Discovery and proposal of intellectual property, promotion of contract-related work
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0564-55-7387Osaka, JAPAN
Takoyaki
Creation and evaluation of fiber optic components
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0564-55-7362Weight lifting, night camping, calisthenics, read old scriptures
Living together with cats, dogs, cows, birds, raccoons.
“स्वस्मै स्वल्पं समाजाय सर्वस्वं
“A little for himself, everything for society”
| Oct 2018-present | Ph.D, Institute for Molecular Science, National Institutes of Natural Sciences, Okazaki, Japan |
| Aug 2013-Aug 2018 | BS-MS dual degree in Physics, Indian Institute of Science Education and Research (IISER), Kolkata, India |
| MEXT scholarship(Oct 2018-Sept 2021) | |
| BS-MS dual degree in Physics, Indian Institute of Science Education and Research (IISER), Kolkata, India(Aug 2013-Aug 2018) |
| Y. Chew, T. Tomita, T.P. Mahesh, S. Sugawa, S. de Léséleuc and K. Ohmori,
“Ultrafast energy exchange between two single Rydberg atoms on a nanosecond timescale,” Nat. Photonics 16, 724 (2022). |
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0564-55-7245Ultrafast quantum control of cold atoms
| 2018 | Bachelor of Science The University of Tokyo |
| 2020 | Master of Science, The University of Tokyo |
| 2023 | Ph. D. Science, The University of Tokyo |
| 2023 | Post-Doctoral Fellow, Department of Molecular Science, Institute for Molecular Science |
| Presentation Award, The Laser Society of Japan The 41st Annual Meeting(2021) | |
| Student Presentation Award, The Chemical Society of Japan The 102nd Annual Meeting(2022) |
|
T. Matsubara, S. Fukahori, E. Lötstedt, Y. Nabekawa, K. Yamanouchi, and K. Midorikawa,
“300 Attosecond Response of Acetylene in Two-Photon Ionization/Dissociation Processes,” Optica 8, 1075 (2021). |
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T. Matsubara, Y. Nabekawa, K. L. Ishikawa, K. Yamanouchi, and K. Midorikawa,
“Attosecond Optical and Ramsey-Type Interferometry by Postgeneration Splitting of Harmonic Pulse,” Ultrafast Sci. 2022, 9858739 (2022). |
Atomic Physics, Ultracold Atoms (BEC and Optical Lattices), Rydberg Atoms, Ultrafast Quantum Simulator, Quantum Optics
| April 2019-Present | Specially Appointed Research Employee, Institute for Molecular Science, National Institutes of Natural Sciences, Okazaki, Japan |
| Oct 2018-March 2019 | Postdoctoral Fellow, Department of Photo-Molecular Science, Institute for Molecular Science |
| Feb 2018-June 2018 | Research Fellow, Centre for Quantum Technologies, National University of Singapore, Singapore. |
| Mar 2015-Feb 2018 | DS Kotdari Post-Doctoral Fellow, Physics Department, Indian Institute of Science, Bangalore, India. |
| Feb 2014-Feb 2015 | Research Associate, Physics Department, Indian Institute of Science, Bangalore, India. |
| Dec 2009-Dec 2013 | Ph.D. in Atomic and Optical Physics, Indian Institute of Technology Roorkee, India. |
| July 2007-June 2009 | Master of Science (Physics), Himachal Pradesh University, Shimla, India. |
| July 2004-June 2007 | Bachelor of Science, Himachal Pradesh University, Shimla, India. |
| V. Bharti, S. Sugawa, M. Mizoguchi, M. Kunimi, Y. Zhang, S. de Léséleuc, T. Tomita, T. Franz, M. Weidemu ̈ller and K. Ohmori,
“Picosecond-Scale Ultrafast Many-Body Dynamics in an Ultracold Rydberg-Excited Atomic Mott Insulator,” Phys. Rev. Lett. 131, 123201 (2023). |
|
| M. Mizoguchi, Y. Zhang, M. Kunimi, A. Tanaka, S. Takeda, N. Takei, V. Bharti, K. Koyasu, T. Kishimoto, D. Jaksch, A. Glaetzle, M. Kiffner, G. Masella, G. Pupillo, M. Weidemüller, and K. Ohmori,
“Ultrafast creation of overlapping Rydberg electrons in an atomic BEC and Mott-insulator lattice,” Physical Review Letters 124, 253201 (2020). |
|
| Mangesh Bhattarai, Vineet Bharti, Sambit Banerjee, Vasant Natarajan
“Observation of electromagnetically induced absorption in a vee+ ladder system”, arXiv:2011.12670 (2020). |
|
| Mangesh Bhattarai, Vineet Bharti, Vasant Natarajan, Armen Sargsyan and David Sarkisyan,
“Study of EIT resonances in an anti-relaxation coated Rb vapor cell,” Physics Letters A 383, 91 (2019). |
|
| Sumanta Khan, Vineet Bharti and Vasant Natarajan,
“Observation of CPT for the ground hyperfine interval in 133Cs,” Science and Culture (ISNA) 84, 344 (2018). |
|
| Mangesh Bhattarai, Vineet Bharti and Vasant Natarajan,
“Tuning of the Hanle effect from EIT to EIA using spatially separated probe and control beams,” Scientific Reports 8, 7525 (2018). |
|
| Pushpander Kumar, Alok K. Singh, Vineet Bharti, Vasant Natarajan and Kanhaiya Pandey,
“Study of CPO resonances on the intercombination line in 173Yb,” J. Phys. B: At. Mol. Opt. Phys. 51, 035502 (2018). |
|
| Sumanta Khan, Vineet Bharti and Vasant Natarajan,
“Coherent population pumping in a bright state,” Science and Culture (ISNA) 84, 194 (2018). |
|
| Vineet Bharti and Vasant Natarajan,
“Sub- and super-luminal light propagation using a Rydberg state,” Optics Communications 392, 180 (2017). |
|
| Harish Ravi, Mangesh Bhattarai, Vineet Bharti and Vasant Natarajan,
“Polarization dependent tuning of the Hanle effect in the ground state of Cs,” Europhysics Letters, 117, 63002 (2017). |
|
| Sumanta Khan, M. P. Kumar, Vineet Bharti and Vasant Natarajan,
“Coherent population trapping (CPT) versus electromagnetically induced transparency (EIT),” European Physical Journal D, 71, 38 (2017). |
|
| Paramjit Kaur, Vineet Bharti and Ajay Wasan,
“Optical properties of an inhomogeneously broadened multilevel V-system in the weak and strong probe regimes,” Indian Journal of Physics, 91, 1115 (2017). |
|
| Vineet Bharti, Ajay Wasan and Vasant Natarajan,
“Wavelength mismatch effect in electromagnetically induced absorption,” Physics Letters A 380, 2390 (2016). |
|
| Sumanta Khan, Vineet Bharti and Vasant Natarajan,
“Role of dressed-state interference in electromagnetically induced transparency,” Physics Letters A 380, 4100 (2016). |
|
| Vineet Bharti and Vasant Natarajan,
“Study of a four-level system in vee+ladder configuration,” Optics Communications 356, 510 (2015). |
|
| Vineet Bharti and Ajay Wasan,
“Complete wavelength mismatching effect in a six-level Doppler broadened Y-type EIT atomic medium,” Optics Communications 324, 238 (2014). |
|
| Sapam Ranjita Chanu, Kanhaiya Pandey, Vineet Bharti, Ajay Wasan and Vasant Natarajan,
“Polarization-rotation resonances with sub-natural widths using a control laser,” Europhysics Letters 106, 43001 (2014). |
|
| Paramjit Kaur, Vineet Bharti and Ajay Wasan,
“Optical properties of an inhomogenously broadened ΛV system with multiple excited states,” Journal of Modern Optics 61, 1339 (2014). |
|
| Vineet Bharti and Ajay Wasan,
“Influence of multiple excited states on optical properties of N-type Doppler broadened system for D2 line of alkali atoms,” J. Phys. B: At. Mol. Opt. Phys. 46, 125501 (2013). |
|
| Vineet Bharti and Ajay Wasan,
“Electromagnetic induced transparency in the Doppler broadened cascade transition with multiple excited states,” J. Phys. B: At. Mol. Opt. Phys. 45, 185501 (2012). |
ROOM
123TEL
0564-55-7368Nara, Japan
Browsing bookstores, Visiting museums, Taking photos
Bicycle, walk when it rains
| 2019-Today | Assistant Professor, Department of Photo-Molecular Science, Institute for Molecular Science |
| 2019 | Post-doctoral researcher, Institut d’Optique, group of Prof. Browaeys. |
| 2015-2018 | PhD Degree, Institut d’Optique, Université Paris-Saclay, Palaiseau, France. tdesis: “Quantum simulation of spin models witd assembled arrays of Rydberg atoms”. |
| 2013-2015 | Master Degree, Swiss Federal Institute of Technology (Etd), Zürich, Switzerland. tdesis: “Generation and teleportation of qutrits: towards a quantum error correction code”. |
| 2010-2013 | Engineer Degree, Ecole Polytechnique, Palaiseau, France. |
| 2008-2010 | Preparatory classes – Matdematics and Physics, Lycée Faidherbe, Lille. |
| 2008 | Scientific baccalaureat witd high honors, Lycée Diderot, Carvin. |
| 2022 | NINS Young Researcher Prize |
| 2020 | Highly Commended for International Quantum Technology Emerging Researcher Award |
| 2019 | Thesis Prize of the EDOM (Doctoral School “Ondes et Matières”) |
| 2017 | Doctoral School Science Day, best oral presentation |
| 2013 | Ecole Polytechnique Research Center Prize (bachelor thesis) |
| Yeelai Chew, Takafumi Tomita, Tirumalasetty Panduranga Mahesh, Seiji Sugawa, Sylvain de Léséleuc, and Kenji Ohmori,
“Ultrafast energy exchange between two single Rydberg atoms on the nanosecond timescale,” arXiv:2111.12314 (2021). |
|
| S. de Léséleuc, V. Lienhard, P. Scholl, D. Barredo, S. Weber, N. Lang, H.P. Büchler, T. Lahaye, and A. Browaeys,
“Experimental realization of a symmetry protected topological phase of interacting bosons with Rydberg atoms,” Science 365, 775 (2019). |
|
| D. Barredo, V. Lienhard, S. de Léséleuc, T. Lahaye and A. Browaeys,
“Synthetic three-dimensional atomic structures assembled atom by atom,” Nature 561, 79 (2018). |
|
| S. Weber, S. de Léséleuc, V. Lienhard, D. Barredo, T. Lahaye, A. Browaeys and H.P. Büchler,
“Topologically protected edge states in small Rydberg systems,” Quantum Sci. Technol. 3, 044001 (2018). |
|
| V. Lienhard, S. de Léséleuc, D. Barredo, T. Lahaye, A. Browaeys, M. Schuler, L.-P. Henry, A.M. Läuchli,
“Observing the space- and time-dependent growth of correlations in dynamically tuned synthetic Ising antiferromagnets,” Phys. Rev. X 8, 021070 (2018). |
|
| S. de Léséleuc, D. Barredo, V. Lienhard, A. Browaeys and T. Lahaye,
“Analysis of imperfections in the coherent optical excitation of single atoms to Rydberg states,” Phys. Rev. A 97, 053803 (2018). |
|
| S. de Léséleuc, S. Weber, V. Lienhard, D. Barredo, H.P. Büchler, T. Lahaye, and A. Browaeys,
“Accurate mapping of multilevel Rydberg atoms on interacting spin-1/2 particles for the quantum simulation of Ising models,” Phys. Rev. Lett. 120, 113602 (2018). |
|
| S. de Léséleuc, S. Weber, V. Lienhard, D. Barredo, H.P. Büchler, T. Lahaye, and A. Browaeys,
“Accurate mapping of multilevel Rydberg atoms on interacting spin-1/2 particles for the quantum simulation of Ising models,” Phys. Rev. Lett. 120, 113602 (2018). |
|
| S. de Léséleuc, D. Barredo, V. Lienhard, A. Browaeys and T. Lahaye,
“Local optical control of the resonant dipole-dipole interaction between Rydberg atoms,” Phys. Rev. Lett. 119, 053202 (2017). |
|
| M. Marcuzzi, J. Minar, D. Barredo, S. de Lésĺeuc, H. Labuhn, T. Lahaye, A. Browaeys, E. Levi, and I. Lesanovsky,
“Facilitation dynamics and localization phenomena in Rydberg lattice gases with position disorder,” Phys. Rev. Lett. 118, 063606 (2017). |
|
| D. Barredo, S. de Léséleuc, V. Lienhard, T. Lahaye, and A. Browaeys,
“An atom-by-atom assembler of defect-free arbitrary 2d atomic arrays,” Science 354, 1021 (2016). |
|
| H. Labuhn, D. Barredo, S. Ravets, S. de Léséleuc, T. Macrì, T. Lahaye and A. Browaeys,
“Tunable two-dimensional arrays of single Rydberg atoms for realizing quantum Ising models,” Nature 534, 667 (2016). |
ROOM
112TEL
0564-55-7368
Chairman of Department of
Photo-Molecular Science
Department of Photo-Molecular Science,
Institute for Molecular Science (IMS),
National Institutes of Natural Sciences
ohmori〔at〕ims.ac.jp
119
0564-55-7361
| 2010-present | Chairman, Department of Photo-Molecular Science, IMS |
|---|---|
| 2007-2010 | Director, Laser Research Center for Molecular Science, IMS |
| 2003-present | Full Professor, Institute for Molecular Science (IMS), National Institutes of Natural Sciences |
| 2001-2003 | Associate Professor, Tohoku University |
| 1992-2001 | Research Associate, Tohoku University |
| 1992 | Ph. D, The University of Tokyo |
| 1987 | Graduated from Faculty of Engineering, The University of Tokyo |
| 2014-2016 | Visiting Professor, University of Strasbourg |
|---|---|
| 2012-present | Visiting Professor, University of Heidelberg |
| 2009-2011 | Visiting Professor, The University of Tokyo |
| 2007-2008 | Visiting Professor, Tokyo Institute of Technology |
| 2004-2005 | Visiting Professor, Tohoku University |
| 2023-present | Chair, Committee for Quantum Science and Technology Policy, Ministry of Education, Culture, Sports, Science and Technology (MEXT) in Japan | 2019 | Chairman of Gordon Research Conference “Quantum Control of Light and Matter”, USA |
|---|---|
| 2019 | Council Member of Gordon Research Conference, USA | 2018-present | ESF College Expert Reviewer, European Science Foundation (ESF) |
| 2018-present | Team Leader, “Large Scale Fundamental Research”, Japan’s flagship program on quantum sciences and technologies “Q-LEAP” by MEXT. |
| 2018-present | Editorial Board, Journal of Physics B: Atomic, Molecular and Optical Physics, IOP Publishing | 2017-present | Scientific and Industrial Advisory Board (SIAB), EU Future Emerging Technology, HORIZON2020, European Commission |
| 2016-present | Team Leader, JSPS Grant for Specially Promoted Research, which is the most prestigious scientific grant in Japan. |
| 2015-2023 | Vice Chair, Committee for Quantum Science and Technology Policy, Ministry of Education, Culture, Sports, Science and Technology (MEXT) in Japan | 2015-2017 | International Advisory Board, Journal of Physics B: Atomic, Molecular and Optical Physics, IOP Publishing |
| 2010-2016 | CREST Team Leader, Japan Science and Technology Agency |
| 2007-present | Invited Panel Evaluator and Expert Referee, European Research Council (ERC) |
| 2021 | “National Medal with Purple Ribbon” from His Majesty the Emperor of Japan (2021).
NEWS |
|---|---|
| 2018 | Commendation for Science and Technology by the Minister of Education, Culture, Sports, Science and Technology of Japan (2018).
NEWS |
| 2017 | “Hiroshi Takuma Memorial Prize” of Matsuo Foundation (2017).
NEWS |
| 2012 | “Humboldt Research Award” (2012).
NEWS |
| 2009 | “Fellow of the American Physical Society” for his pioneering development of spatiotemporal wave-packet engineering in which the ultrafast wave-packet interference in a molecule is visualized and controlled with precisions on the picometer spatial and attosecond temporal scales (2009). |
| 2008 | Norman Hascoe Lecturer, Norman Hascoe Distinguished Lecture Series, University of Connecticut, USA (2008) |
| 2007 | “Japan Academy Medal” for his development of attosecond coherent control and its applications”. (Japan Academy Medal is the most prestigious prize for young researchers (45 or yonger) in Japan, awarded annually to five recipients selected from all areas of science including humanity, social science, chemistry, physics, biology, engineering, medical science, etc. Ohmori is the first recipient in the field of chemistry and physics.) (2007).
NEWS |
| 2007 | “JSPS Prize” for his development of attosecond coherent control and its applications (2007). |
| 1998 | “Award by Research Foundation for Opto-Science and Technology” (1998). |
|
“Ultrafast energy exchange between two single Rydberg atoms on a nanosecond timescale,”
Y. ChewY. Chew, T. Tomita, T. P. Mahesh, S. Sugawa, S. de Léséleuc & K. Ohmori Nature Photonics (2022) |
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“Ultrafast many-body dynamics in an ultracold Rydberg-excited atomic Mott insulator,” V. Bharti, S. Sugawa, M.Mizoguchi, M. Kunimi, Y.Zhang, S. de L s leuc, T.Tomita, T. Franz, M.Weidemüller, K. Ohmori arXiv:2201.09590 (2022). |
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“Ultrafast energy exchange between two single Rydberg atoms on the nanosecond timescale,” Yeelai Chew, Takafumi Tomita, Tirumalasetty Panduranga Mahesh, Seiji Sugawa, Sylvain de Léséleuc, and Kenji Ohmori arXiv:2111.12314 (2021). |
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“Engineering quantum wave-packet dispersion with a strong non-resonant femtosecond laser pulse,” Hiroyuki Katsuki, Yukiyoshi Ohtsuki, Toru Ajiki, Haruka Goto, and Kenji Ohmori Phys. Rev. Research. 3, 043021 (2021). |
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“Optimal control for suppressing wave packet spreading with strong non-resonant laser pulses,” Yukiyoshi Ohtsuki, Tomotaro Namba, Hiroyuki Katsuki and Kenji Ohmori Phys. Rev. A. 104, 033107 (2021). |
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“Ultrafast creation of overlapping Rydberg electrons in an atomic BEC and Mott-insulator lattice,” Michiteru Mizoguchi, Yichi Zhang, Masaya Kunimi, Akira Tanaka, Shuntaro Takeda, Nobuyuki Takei, Vineet Bharti, Kuniaki Koyasu, Tetsuo Kishimoto, Dieter Jaksch, Alexander Glaetzle, Martin Kiffner, Guido Masella, Guido Pupillo, Matthias Weidemüller, and Kenji Ohmori Phys. Rev. Lett. 124, 253201(2020). |
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“Attosecond Control of Restoration of Electronic Structure Symmetry”, ChunMei Liu, Jörn Manz, Kenji Ohmori, Christian Sommer, Nobuyuki Takei, Jean Christophe Tremblay, and Yichi Zhang Phys. Rev. Lett. 121, 173201 doi:10.1103/PhysRevLett.121.173201 (2018). |
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“Ultrafast Coherent Control of Condensed Matter with Attosecond Precision”, Hiroyuki Katsuki, Nobuyuki Takei, Christian Sommer, and Kenji Ohmori Acc. Chem. Res. 51, 1174–1184 (2018). |
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“Direct observation of ultrafast many-body electron dynamics in an ultracold Rydberg gas”, Nobuyuki Takei, Christian Sommer, Claudiu Genes, Guido Pupillo, Haruka Goto, Kuniaki Koyasu, Hisashi Chiba, Matthias Weidemüller, and Kenji Ohmori Nature Communications 7, 13449 doi:10.1038/ncomms13449 (2016). |
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“Time-domain Ramsey interferometry with interacting Rydberg atoms”,
Christian Sommer, Guido Pupillo, Nobuyuki Takei, Shuntaro Takeda, Akira Tanaka, Kenji Ohmori, and Claudiu Genes Phys. Rev. A. 94, 053607 (2016). |
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“Simultaneous manipulation and observation of multiple ro-vibrational eigenstates in solid para-hydrogen”, Hiroyuki Katsuki and Kenji Ohmori J. Chem. Phys. 145, 124316 (2016). |
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“Manipulation and visualization of two-dimensional phase distribution of vibrational wave functions in solid parahydrogen crystal”, Hiroyuki Katsuki, Kenzo Ohmori, Toru Horie, Hisao Yanagi, and Kenji Ohmori, Phys. Rev. B. 92, 094511 (2015). |
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“Quantum Superrotor”, Kenji Ohmori Physics 7, 29 (2014). |
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“Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, Kenji Ohmori Found. Phys. 44, 813-818 (2014). |
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“Theoretical/numerical study on strong-laser-induced interference in the B state of I2”, Y. Ohtsuki, H. Goto, H. Katsuki, and K. Ohmori Phys. Chem. Chem. Phys. 16, 5689-5697 (2014) |
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“All-Optical Control and Visualization of Ultrafast Two-Dimensional Atomic Motions in a Single Crystal of Bismuth”, H. Katsuki, J. C. Delagnes, K. Hosaka, K. Ishikawa, H. Chiba, E. S. Zijlstra, M. E. Garcia, H. Takahashi, K. Watanabe, M. Kitajima, Y. Matsumoto, K. G. Nakamura, and K. Ohmori Nature Communications 4, 2801-1 – 2801-7 (2013). |
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“Optically engineered quantum interference of delocalized wavefunctions in a bulk solid : The example of solid para-hydrogen”, Hiroyuki Katsuki, Yosuke Kayanuma, and Kenji Ohmori, Phys. Rev. B. 88, 014507-1- 014507-6(2013). |
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“Wavepacket interferometry for nuclear densities and flux densities”, Timm Bredtmann, Hiroyuki Katsuki, Jörn Manz, Kenji Ohmori, and Christian Stemmle, Molecular Physics, 111, 1691-1696 (2013). (invited paper) |
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“Optical manipulation of coherent phonons in superconducting YBa2Cu3O7-d thin films”,
Yasuaki Okano, Hiroyuki Katsuki, Yoshihiro Nakagawa, Hiroshi Takahashi, Kazutaka G. Nakamura and Kenji Ohmori, Faraday Discuss., 153, 375–382 (2011). (invited paper) |
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“Strong-Laser-Induced Quantum Interference”,
Haruka Goto, Hiroyuki Katsuki, Heide Ibrahim, Hisashi Chiba, and Kenji Ohmori,
Nature Physics, 7, 383–385 (2011). Highlighted by “News and Views” in Nature Physics. Nature Physics 7, 373–374 (2011). Highlighted by “Research Highlights” in Nature Photonics. Nature Photonics 5, 382–383 (2011). |
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“Optical modification of the vibrational distribution of the iodine molecule”, H. Goto, H. Katsuki, and K. Ohmori, Chem. Phys. Lett. 493, 170-172 (2010). |
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“Wave packet interferometry with attosecond precision and picometric structure”, H. Katsuki, H. Chiba, C. Meier, B. Girard, and K. Ohmori, Phys. Chem. Chem. Phys. 12, 5189-5198 (2010). |
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“Ultrafast Fourier transform with a femtosecond-laser-driven molecule”, K. Hosaka, H. Shimada, H. Chiba, H. Katsuki, Y. Teranishi, Y. Ohtsuki, and K. Ohmori, Phys. Rev. Lett. 104, 180501-1-180501-4 (2010). |
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“Ultrafast Fourier transform with a femtosecond-laser-driven molecule”, K. Hosaka, H. Shimada, H. Chiba, H. Katsuki, Y. Teranishi, Y. Ohtsuki, and K. Ohmori, Phys. Rev. Lett. 104, 180501-1-180501-4 (2010). Selected for “Editors’ Suggestions” in PRL. Covered by “Viewpoints” in Physics; Physics 3, 38 (2010). Covered by “Research Highlights” in Nature; Nature 465, 138-139 (2010). |
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“Optical control and mode selective excitation of coherent phonons in YBa2Cu3O7-d”, H. Takahashi, K. Kato, H. Nakano, M. Kitajima, K. Ohmori, and K. G. Nakamura, Solid State Commun. 149, 1955-1957 (2009). |
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“Actively tailored spatiotemporal images of quantum interference on the picometer and femtosecond scales”, H. Katsuki, H. Chiba, C. Meier, B. Girard, and K. Ohmori, Phys. Rev. Lett. 102, 103602-1—103602-4 (2009). |
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“Wave-packet and coherent control dynamics”, Kenji Ohmori, Annu. Rev. Phys. Chem. 60, 487-511 (2009). |
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“Development of ultrahigh-precision coherent control and its applications”, Kenji Ohmori, Proc. Jpn. Acad., Ser. B 84, 167-175 (2008). |
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“READ and WRITE amplitude and phase information by using high-precision molecular wave-packet interferometry”, H. Katsuki, K. Hosaka, H. Chiba, and K. Ohmori, Phys. Rev. A 76, 013403-1—013403-13 (2007). |
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“Visualizing picometric quantum ripples of ultrafast wave-packet interference”, H. Katsuki, H. Chiba, B. Girard, C. Meier, and K. Ohmori, Science 311, 1589-1592 (2006). |
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“Real-time observation of phase-controlled molecular wave-packet interference”, K. Ohmori, H. Katsuki, H. Chiba, M. Honda, Y. Hagihara, K. Fujiwara, Y. Sato, and K. Ueda, Phys. Rev. Lett. 96, 093002-1-093002-4 (2006). |
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“Implementation of quantum gate operations in molecules with weak laser fields”, Y. Teranishi, Y. Ohtsuki, K. Hosaka, H. Chiba, H. Katsuki, and K. Ohmori, J. Chem. Phys. 124, 114110-1—114110-9 (2006). |
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“High precision molecular wave-packet interferometry with Hg-Ar dimmers”, Kenji Ohmori, Yukinori Sato, Evgueni E. Nikitin, and Stuart A. Rice, Phys. Rev. Lett. 91, 243003-1-243003-4 (2003). |
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“Energy dependence of the intramultiplet mixing cross section in Hg–N2 collisions: conical intersection mechanism, indication at tunneling and interference”, E.I.Dashevskaya, E.E.Nikitin, K.Ohmori, M.Okunishi, I.Oref, and Y.Sato, Phys. Chem. Chem. Phys. 5, 1198 (2003). |
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“Development of attosecond optical-phase manipulation for the wave-packet engineering”, K.Ohmori, M.Nakamura, H.Chiba, K.Amano, M.Okunishi, and Y.Sato, J. Photochemistry & Photobiology A: Chemistry 145, 17-21 (2001). |
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“Double-pulse manipulation of vibrational wave packets in HgAr van der Waals complex”, Y.Sato, H.Chiba, M.Nakamura, and K.Ohmori, in Laser Control and Manipulation of Molecules, edited by R.J.Gordon, A.Bandrauk, and Y.Fujimura (ACS Books, 2001), pp. 155-170. |
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“Spectroscopy of quasimolecular optical transitions: Ca(4s2 1S0 – 4s4p 1P, 4s3d 1D2)-He. The influence of radiation width”, E.Bichoutskaia, A.Devdariani, K.Ohmori, O.Misaki, K.Ueda, and Y.Sato, J. Phys. B: At. Mol. Opt. Phys. 34, 2301-2312 (2001). |
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“Femtosecond real-time probing of the ultrafast energy dissipation in the Hg(63P1)-CO van der Waals interaction”, K.Ohmori, K.Amano, H.Chiba, M.Okunishi, and Y.Sato, J. Chem. Phys. 113, 461-464 (2000). (in Communications) |
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“A high-resolution angle-resolved electron spectroscopy study of the 5dnp Rydberg series in Ba”, K.Ohmori, H.Chiba, K.Amano, K.Ueda, Y.Sato, J.B.West, K.J.Ross, and M.Aymar, J. Phys. B: At. Mol. Opt. Phys. 32, 5223-5235 (1999). |
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“Far-wing excitation study on the transition regions of the metastable mercury atom collisions: Hg(63P2) + N2 and CO”, K.Ohmori, T.Kurosawa, H.Chiba, M.Okunishi, Y.Sato, A.Z.Devdariani, and E.E.Nikitin, Chem. Phys. Lett. 315, 411-415 (1999). |
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“Collision-induced fine-structure transitions of Hg (63P163P0) with N2 and CO. 1. Initial orbital alignment effects”, M.Okunishi, J.Hashimoto, H.Chiba, K.Ohmori, K.Ueda, and Y.Sato, J. Phys. Chem. 103, 1734-1741 (1999). |
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“Collision-induced fine-structure transitions of Hg (63P163P0) with N2 and CO. 2. Translational energy dependence”, M.Okunishi, J.Hashimoto, H.Chiba, K.Ohmori, K.Ueda, and Y.Sato, J. Phys. Chem. 103, 1742-1747 (1999). |
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“Auger electron spectra of CF3CN, CF3Cl, CF2Cl2, and CFCl3”, Y.Shimizu, K.Ueda, H.Chiba, M.Okunishi, K.Ohmori, Y.Sato, H.Suzuki, T.Ibuki, and K.Okada, Chem. Phys. 244, 439-448 (1999). |
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“Far-wing excitation studies on the quasimolecular transitions in the Hgrare-gas, simple-molecule half-collisions”, Kenji Ohmori, in Spectral Line Shapes, Vol. 10, edited by R. Herman (AIP Press, 1999), pp.352-363. |
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“Ultrafast pump/probe approach to atom-molecule half-collisions”, Kenji Ohmori, in LASERS ’98, edited by V.J.Corcoran and T.A.Goldman (STS Press, McLean VA, 1999), pp.106-115. |
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“c←X laser excitation spectrum of the Hg-Ar vdW complex”, K. Amano, K. Ohmori, Y. Kurosawa, H. Chiba, M. Okunishi, K. Ueda, Y. Sato, A. Z. Devdariani, and E. E. Nikitin, J. Chem. Phys. 108, 8110-8113 (1998). |
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“Collision induced absorption in mercuryrare-gas collisions”, T.Kurosawa, K.Ohmori, H.Chiba, M.Okunishi, K.Ueda, Y.Sato, A.Z.Devdariani, and E.E.Nikitin, J. Chem. Phys. 108, 8101-8109 (1998). |
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“Apparatus for studying decay and dissociation of core-excited molecules”, Y.Shimizu, K.Nagao, K.Ueda, M.Takahashi, H.Chiba, S.Yanagida, M.Okunishi, K.Ohmori, Y.Sato, T.Hayaishi, and K.J.Ross, J. Electr. Spectrosc. Relat. Phenom. 88-91, 1031-1036 (1998). |
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“Far-wing excitation studies on the transit regions in slow atomic collisions”, K.Ohmori and Y.Sato, in Photonic, Electronic and Atomic Collisions, edited by F. Aumayr and HP. Winter (World Scientific, 1998), pp.593-602. |
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“Absolute photoionization cross sections for the Ba ground state in the autoionization region. I. 238-218nm”, K. Maeda, M. Aymar, K. Ueda, H. Chiba, K. Ohmori, Y. Sato, J. B. West, K. J. Ross, and K. Ito, J. Phys. B: At. Mol. Opt. Phys. 30, 3159-3171 (1997). |
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“Angle-resolved photoelectron and photoion study on the shape resonance in the B 1s ionization region of BF3”, Y.Shimizu, K.Ueda, H.Chiba, K.Ohmori, M.Okunishi, Y.Sato, and T.Hayaishi, J. Chem. Phys. 107, 2415-2418 (1997). |
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“Symmetries and dissociation dynamics of F 1s core-excited states of BF3”, Y.Shimizu, K.Ueda, H.Chiba, M.Okunishi, K.Ohmori, J.B.West, Y.Sato, and T.Hayaishi, J. Chem. Phys. 107, 2419-2423 (1997). |
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“Correlation between core-hole polarization and localized bond rupture from anisotropy in the photofragmentation of F 1s excited SF6”, K.Ueda, Y.Shimizu, K.Nagao, H.Chiba, M.Okunishi, K.Ohmori, J.B.West, Y.Sato, T.Hayaishi, H.Nakamatsu, and T.Mukoyama, Phys. Rev. Lett. 79, 3371-3374 (1997). |
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“Far-wing excitation study of the reactions in the Hg-H2 collisional quasimolecules. I. Transit-state selectivity in HgH formation and three-body dissociation”, K.Ohmori, T.Takahashi, H.Chiba, K.Saito, T.Nakamura, M.Okunishi, K.Ueda, and Y.Sato, J. Chem. Phys. 105, 7464-7473 (1996). |
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“Far-wing excitation study of the reactions in the Hg-H2 collisional quasimolecules. II. Rovibrational distributions of HgH, HgD (X2+) formed from Hg-H2, D2, HD”, K.Ohmori, T.Takahashi, H.Chiba, K.Saito, T.Nakamura, M.Okunishi, K.Ueda, and Y.Sato, J. Chem. Phys. 105, 7474-7479 (1996). |
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“Far-wing excitation spectra of the Hg 6s6p3P0-6s7s3S1 inter-excited-state transitions broadened by Ar and Ne”, K.Ohmori, K.Amano, M.Okunishi, H.Chiba, K.Ueda, and Y.Sato, Chem. Lett. 765-766 (1996). |
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“Continuum absorption spectra in far wings of Hg 1S03P1 resonance line broadened by Ar”, Y.Sato, T.Nakamura, M.Okunishi, K.Ohmori, H.Chiba, and K.Ueda, Phys. Rev. A 53, 867-873 (1996). |
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“Dissociation dynamics of B 1s core-excited BF3 probed by energy-selected electron energy-selected ion coincidence and angle-resolved ion spectroscopy”, K.Ueda, K.Ohmori, M.Okunishi, H.Chiba, Y.Shimizu, Y.Sato, T.Hayaishi, E.Shigemasa, and A.Yagishita, J. Elec. Spec. Rel. Phenom. 79, 411-414 (1996). |
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“C 1s and F 1s photoabsorption and subsequent electronic decay of CH4, CH3F, CH2F2, CHF3, and CF4”, K.Ueda, Y.Shimizu, H.Chiba, M.Okunishi, K.Ohmori, Y.Sato, E.Shigemasa, and N.Kosugi, J. Elec. Spec. Rel. Phenom. 79, 441-444 (1996). |
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“Far-wing excitation study on the transit region of Hg 3P13P0 intramultiplet process in collisions with N2 and CO”, K.Ohmori, T.Kurosawa, H.Chiba, M.Okunishi, K.Ueda, Y.Sato, and E.E.Nikitin, J. Chem. Phys. 102, 7341-7350 (1995). |
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“Rydberg-valence mixing in the C 1s excited states of CH4 probed by electron spectroscopy”, K.Ueda, M.Okunishi, H.Chiba, Y.Shimizu, K.Ohmori, Y.Sato, E.Shigemasa, and N.Kosugi, Chem. Phys. Lett. 236, 311-317 (1995). |
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“Direct observation of correlation between electron emission and fragmentation into ions following B 1s excitation of the BF3 molecule”, K.Ueda, K.Ohmori, M.Okunishi, H.Chiba, Y.Shimizu, Y.Sato, T.Hayaishi, E.Shigemasa, and A.Yagishita, Phys. Rev. A 52, R1815-R1818 (1995). |
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“Rydberg and valence states in the C 1s photoabsorption and resonance Auger spectra of CH3F”, N.Kosugi, K.Ueda, Y.Shimizu, H.Chiba, M.Okunishi, K.Ohmori, Y.Sato, and E.Shigemasa, Chem. Phys. Lett. 246, 475-480 (1995). |
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“Far-wing excitation study on the fine-structure transition of Hg(3P13P0) in collisions with N2”, K.Ohmori, T.Kurosawa, H.Chiba, M.Okunishi, and Y.Sato, J. Chem. Phys. 100, 5381-5383 (1994). (in Communications) |
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“Blue satellite structure of the Ba resonance line broadened by rare gases”, T. Maeyama, H. Ito, H.Chiba, K.Ohmori, K. Ueda, and Y.Sato, J. Chem. Phys. 97, 9492-9493 (1992). |
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“Pressure dependence of the rate constant for the reaction: CH3O+NO”, K.Ohmori, K.Yamasaki, and H.Matsui, Bull. Chem. Soc. Jpn. 66, 51-56 (1993). |
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“Reaction rates of atomic oxygen(3P) with a series of alkanes at high temperatures”, A.Miyoshi, K.Ohmori, and H.Matsui, in Turbulence and molecular processes in combustion, edited by T.Takeno (Elsevier, 1993), pp. 85-99. |
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“Reaction rates of atomic oxygen with straight chain alkanes and fluoro-methanes at high temperatures”, A.Miyoshi, K.Ohmori, K.Tsuchiya, and H.Matsui, Chem. Phys. Lett. 204, 241-247 (1993). |
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“A flash photolysis study of CH4-O2 mixture behind shock waves”, K.Ohmori, M.Yoshimura, M.Koshi, and H.Matsui, Bull. Chem. Soc. Jpn. 65, 1317-1322 (1992). |
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“Examination of the chain branching steps in oxidation of CH4 and H2S via excimer laser photolysis in shock waves”, M.Yoshimura, K.Ohmori, K.Kamiya, M.Koshi, and H.Matsui, in Shock Waves, K. Takayama, Ed. (Springer-Verlag, Berlin, 1992), vol. II, pp. 887-890. |
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“Studies on the reaction of acetaldehyde and acetyl radicals with atomic hydrogen”, K.Ohmori, A.Miyoshi, and H.Matsui, J. Phys. Chem. 94, 3253-3255 (1990). |
| K. OHMORI,”Ultrafast and ultracold quantum simulator/computer with attosecond precision”, The 4th Asia-Pacific Workshop on Trapped Quantum Systems(APTQS 2022) , 22 April 2022 (Online). |
| K. OHMORI,”Ultrafast and ultracold quantum simulator/computer with attosecond precision”, Quantum Simulations and Computations with Cold Atoms-2022 (QSCCA 2021) , 26 January 2022 (Online). |
| K. OHMORI (Invited Talk / Panel Discussion), “Japan’s quantum-technology testbeds,” The International Symposium on Quantum Science, US DOE Office of Science (SC) Workshop on the International Quantum Computing Testbeds, Quantum Computing Testbeds Stakeholder Workshop, US DOE Office of Science (SC), USA, 18 December 2021 (Online). |
| K. OHMORI (Invited Talk / Panel Discussion), “Quantum computers and simulators; the present status and future perspectives,” JACS in session with JACS Au and ACS Phys Chem Au for the theme of “Quantum Computing, Data Science, and Computation Evolution for Chemistry and Energy.”, American Chemical Society, USA, 14 December 2021 (Online). (Postponed to 2022 due to various reasons of the organizer, American Chemical Society JACS) |
| K. OHMORI, “Ultrafast and ultracold quantum simulator/computer with attosecond precision”, the International Symposium on Quantum Science, Technology and Innovation: QUANTUM INNOVATION 2021, 7-9 December 2021 (Online) |
| K. OHMORI, “Ultrafast and Ultracold Quantum Simulator with Attosecond Precision”, IAS Center for Quantum Technologies Inaugural Workshop, 26 August 2021 (Online). |
| K. OHMORI, “Ultrafast and ultracold quantum simulator with attosecond precision,” The 15th Femtochemistry Conference (FEMTO 15), Berlin, Germany, 25-30 July 2021.(Postponed to 2023 due to Covid-19 pandemic) |
| K. OHMORI, “Ultrafast and ultracold quantum simulator with attosecond precision”, the U.S.-Japan Quantum Cooperation Workshop(Hudson Institute, USA / Cabinet Office, Japan), 1 July 2021 (Online). |
| K. OHMORI, “Ultrafast and ultracold quantum simulator with attosecond precision”, DAMOP 2021 (52nd Annual Meeting of the American Physical Society’s Division of Atomic, Molecular and Optical Physics), 31 May-4 June 2021 (Online). |
| K. OHMORI, “Ultrafast and ultracold quantum simulator with attosecond precision”, EU FET Project COPAC Symposium “Parallel Computing Quantum Devices”, 23-25 March 2021 (Online). |
| K. OHMORI, “Ultrafast quantum simulator with attosecond precision at ultracold temperatures”, Fundamental Sciences and Quantum Technologies using Atomic Systems (FSQT 2020)organized by Atomic, Molecular and Optical Physics Division Physical Research Laboratory, supported by SciRox, Science Club, GNDU, Amritsar, Punjab, India, 29 September, 2020 (Online). |
| K. OHMORI, “Ultrafast quantum simulator with attosecond precision at ultracold temperatures”, India-Japan webinar on quantum technologies organized by the Embassy of India, Tokyo, supported by the governments of India and Japan, 28 July 2020 (Online). |
| K. OHMORI, “Ultrafast many-body electron dynamics in an ultracold atomic BEC and Mott insulator lattice”, “EU-Japan bilateral meeting on Quantum Science” of “EU-USA-Japan International Symposium on Quantum Technology” and “Topical Conference on Quantum Computing 2019”, Kyoto Brighton Hotel, Kyoto, December 16-18, 2019. |
| K. OHMORI,”Ultrafast many-body electron dynamics in an ultracold atomic BEC and Mott insulator lattice”, “Annual Conference Series title: Frontiers in Synthetic Quantum Systems, 2019 Focus: Quantum Simulations in Optical Lattices and Beyond”, Tianping Hotel, Shanghai, China, December 14-15, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in an ultracold atomic BEC and Mott insulator lattice”, the Conference “Quantum Computing in Near Term”, Universität Wien, wien, Austria, October 21, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, The 14th Femtochemistry Conference, Jin Jiang Hotel, Shanghai, China August 1, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, P&A AMO Seminar, Rice University, Houston, USA July 1, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, Quantum Dynamics and Spectroscopy in Condensed-Phase Materials and Bio-Systems, Telluride Science Research Center (TSRC), Telluride, USA, June 28, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, International Symposium: Highly-excited States and Non-covalent Interactions, The University of Manchester, Manchester, UK June 20, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, the 4th International Workshop on Rydberg Atoms and Molecules, Hangzhou, China, June 7, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, IAS Workshop, The Hong Kong University of Science and Technology, China, May 7, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, CQOM Colloquium, Center for Quantum Optics and Quantum Matter (CQOM), Aarhus University, Denmark, May 17, 2018. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Max Planck Institute of Quantum Optics, Garching, Germany, March 16, 2018 |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Joint Quantum Institute, Maryland, USA, March 8, 2018 |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, University of Oxford, Oxford, UK, November 20, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Max Planck Institute for the Science of Light, Erlangen, Germany, October 5, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, CUA Seminars, MIT-Harvard Center for Ultracold Atoms, Cambridge, USA, September 12, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Gordon Research Conference on “Quantm Control of Light and Matter”, Mount Holyoke College, South Hadley, MA, USA, August 6-11, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Institut d’Optique, Palaiseau, France, May 26, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Les Houches / Telluride Workshop on “Quantum Dynamics and Spectroscopy of Functional Molecular Materials and Biological Photosystems”, Les Houches, France, May 24, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, IQOQI, University of Innsbruck, Austria, May 5, 2017. |
| K. OHMORI, “Many-Body Physics: The Holy Grail of Modern Sciences and Technologies”, Invited Lecture, State Key Laboratory of Quantum Optics and Quantum Optic Devices, Shanxi University, China, November 7-11, 2016. |
| K. OHMORI, “Addressing Quantum Many-Body Dynamics by Ultrafast Coherent Control with Attosecond Precision”, CQD-IMS Collaborative Meeting “Rydberg Quantum Matter”, Heidelberg, Germany, June 9-10, 2016. |
| K. OHMORI, “Many-Body Physics: The Holy Grail of Modern Sciences and Technologies,” 1st International Symposium on Advanced Photonics (ISAP), Hamamatsu, Japan, April 12-14, 2016. |
| K. OHMORI, “Direct Observation and Control of Ultrafast Many-Body Electron Dynamics in a Strongly-Correlated Ultracold Rydberg Gas,” OIST Mini Symposium “Rydberg Atoms for Quantum Technologies”, Okinawa, Japan, March 3-5, 2016. |
| K. OHMORI, “Addressing Quantum Many-Body Dynamics by Ultrafast Coherent Control with Attosecond Precision”, CQD-IMS Collaborative Meeting “Rydberg Quantum Matter”, Heidelberg, Germany, June 9, 2016. |
| K. OHMORI, “Direct Observation of Ultrafast Many-Body Electron Dynamics in a Strongly-Correlated Ultracold Rydberg Gas”, Perspectives in Nano Information Processing: an International Conference and Workshop, Cambridge, UK, December 14-16, 2015. |
| K. OHMORI, “Direct Observation of Ultrafast Many-Body Electron Dynamics in a Strongly- Correlated Ultracold Rydberg Gas”, The 12th US-Japan Seminar on Many Body Quantum Systems, Madison, USA, September 20-24, 2015. |
| K. OHMORI, “Direct Observation of Ultrafast Quantum Many-Body Dynamics in a Strongly-Correlated Ultracold Rydberg Gas”, The 12th Femtochemistry Conference, Hamburg, Germany, July 12-17, 2015. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly-Correlated Ultracold Rydberg Gas”, Gordon Research Conference on “Atomic Physics”, Newport, USA, June 14-19, 2015. |
| K. OHMORI, “Ultrafast electron dynamics beyond mean-field in a strongly-correlated ultracold Rydberg gas”, Coherence and Control in the Quantum World: Current and Future Trends, Weizmann Institute of Science, Israel, December 15-18, 2014. |
| K. OHMORI, “Ultrafast Electron Dynamics Beyond Mean-Field in a Strongly-Correlated Ultracold Rydberg Gas”, SFB Kolloquium, University of Stuttgart, Stuttgart, Germany, October 31, 2014. |
| K. OHMORI, “Exploring Quantum-Classical Boundary with Light”, Fujihara Seminar: Real-time Dynamics of Physical Phenomena and Manipulation by External Fields, Tomakomai, Hokkaido, Japan, September 23-27, 2014. |
| K. OHMORI,”Ultrafast Many-Body Dynamics in an Ultracold Rydberg Gas”, Ultracold Rydberg Physics Workshop, Granada, Spain, September 10-12, 2014. |
| K. OHMORI, “Exploring Quantum-Classical Boundary with Coherent Control”, Coherence and Control in the Quantum World: the Legacy of Moshe Shapiro, University of British Columbia, Canada, August 13-15, 2014. |
| K. OHMORI, “Exploring Quantum-Classical Boundary with Light”, Physikalisches Kolloquium of University of Heidelberg (also as Plenary Lecture at 11th Germany-Japan Science Colloquium), Heidelberg, Germany, January 17, 2014. |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Networks of Ultra-Cold Rydberg Atoms, Keble College in Oxford, UK, January 9-10, 2014 |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Laser Science XXIX, (the 29th Annual Meeting of the American Physical Society), Hilton Bonnet Creek, Florida, USA, October 6-10, 2013 |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Conference on Quantum Information and Quantum Control, Fields Institute, Toronto, Canada, Aug 12- 16, 2013. |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Gordon Research Conference on “Quantm Control of Light and Matter”, Mount Holyoke College, South Hadley, MA, USA, July 28 – August 2, 2013. |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Quantum Dynamics and Spectroscopy in Condensed-Phase Materials and Bio-Systems, TSRC, Telluride, USA, July 8-12, 2013. |
| K. OHMORI, “Spatiotemporal Quantum Engineering with Picometer and Attosecond Precision”, Strasbourg Physique Seminaires, Strasbourg University, Strasbourg, France, May 23, 2013. |
| K. OHMORI, “Spatiotemporal Quantum Engineering with Picometer and Attosecond Precision”, Atomic and laser physics seminar series, Department of Physics, University of Oxford, Oxford, UK, May 20, 2013. |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, The 11th US-Japan Joint Seminar on Quantum Electronics and Laser Spectroscopy (The US-Japan QELS-11) “Ultimate Quantum Systems of Light and Matter- Control and Applications”, Nara, Japan, April 11, 2013. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, 3rd IMS-ENSCP Joint Seminar, IMS, Okazaki, Japan, February 13, 2013. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, KITP Program “Fundamental Science and Applications of Ultra-cold Polar Molecules”, KITP UC Santa Barbara, Santa Barbara, USA, February 5, 2013. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, Physics Colloquium, University of Freiburg, Freiburg, Germany, December 3, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, ESF Research Conference in Partnership with LFUI on “Cold and Ultracold Molecules”, Universitätszentrum Obergurgl, Austria, November 22, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, Workshop on “Molecular Functional Dynamics: Fundamental to Life Activity”, IMS, Okazaki, Japan, October 26, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, International Workshop: “Horizons of Quantum Physics: from Foundations to Quantum-Enabled Technologies”, American Club Taipei, Taipei, Taiwan, October 16, 2012. |
| K. OHMORI, “Quantum simulator of quantum/classical boundary”, The ‘240’ Conference, The University of Chicago, Chicago, USA, September 14, 2012. |
| K. OHMORI, “Exploring quantum/classical boundary”, The ‘240’ Conference, The University of Chicago, Chicago, USA, September 13, 2012. |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Batsheva de Rothschild Seminar on “Laser Control of Chemical Reactions: Toward Deciphering Mechanisms and Understanding the Theoretical and Experimental Limits”, Ruth-Rimmonim Hotel, Safed, Israel, September 3, 2012. |
| K. OHMORI, “Spatiotemporal quantum engineering with picometer and attosecond precision”, Special Seminar on “Theoretical Chemistry”, Institut für Chemie und Biochemie, Freie Universitaet Berlin, Berlin, Germany, June 19, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, International Conference on Superconductivity and Magnetism: ICSM 2012, Artemis Marin Princess Hotel, Kumburgaz-Istanbul, Turkey, May 4, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, IMS Japan – WIS Workshop, Weizmann Institute of Science, Rehovot, Israel, February 26, 2012. |
| K. OHMORI, “Single Molecule can Calculate 1000 Times Faster than Supercomputers”, KAIST Physics Coloquium, Daejon, Korea, February 13, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, Center for Quantum Dynamics Seminar, Universitaet Heidelberg, Heidelberg, Germany, January 19, 2012. |
| K. OHMORI, “Ultrafast Computing with a Femtosecond-Laser-Driven Molecule”, Architecture and Design of “supported” single Molecule Logic Gates and atom circuits, Barcelona, Spain, January 12-13, 2012. |
| K. OHMORI, “Single Molecule can Calculate 1000 Times Faster than Supercomputers”, International Symposium on Physics and Applications of Laser Dynamics 2011, Tainan, Taiwan, December 7, 2011. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, Meet APS Fellow Forum, National Tsing Hua University, Hsinchu, Taiwan, December 6, 2011. |
| K. OHMORI, “Attosecond Quantum Engineering”, Germany-Japan Colloquium “From the Early Universe to the Evolution of Life”, Heidelberg, Germany, December 1-3, 2011. |
| K. OHMORI, “Single Molecule can Calculate 1000 Times Faster than Supercomputers”, Frontier in Molecular Science based on Photo and Material, Paris, France, November 7-8, 2011. |
| K. OHMORI, “Ultrafast Computing with a Femtosecond-Laser-Driven Molecule”, International Workshop on Simulation and Manipulation of Quantum Systems for Information Processing (SMQS-IP), Juelich, Germany, October 17-19, 2011. |
| K. OHMORI, “Ultrafast Computing with a Femtosecond-Laser-Driven Molecule”, International Workshop “Engineering and Control of Quantum Systems”, Dresden, Germany, October 10-14, 2011. |
| K. OHMORI, “Ultrafast Computing with a Femtosecond-Laser-Driven Molecule”, International Workshop on Coherence and Decoherence at Ultracold Temperatures, Institute for Advanced Study of Technische Universitat Munchen in Garching/Munich, Germany, September 6-9, 2011. |
| K. OHMORI, “Coherent Control; Present and Future”, Gordon Research Conference on “Quantm Control of Light and Matter,” Mount Holyoke College, South Hadley, MA, USA, July 31 – August 5, 2011. |
| K. OHMORI, “Single Molecule Can Calculate 1000 Times Faster than Supercomputers”, Special Seminar at Physics Department of Oxford University, Oxford, UK, July 28, 2011. |
| K. OHMORI, “Optical Manipulation of Coherent Phonons in Superconducting YBa2Cu3O7-δ Thin Films”, Faraday Discussion 153: Coherence and Control in Chemistry, Leeds, UK, July 25-27, 2011. |
| K. OHMORI, “Single Molecule can Calculate 1000 Times Faster than Supercomputers”, 14th Korea-Japan Joint Symposium on Frontiers of Molecular Science”New Visions for Spectroscopy and Computation: Temporal and Spatial Adventures of Molecular Sciences”, Busan, Korea, July 6-8, 2011. |
| K. OHMORI, “Molecular Eigenstate-Based Information Processing”, Lorentz Center Workshop on “Molecular Logic”, Lorentz Center, Leiden, Netherland, May 30 – June 2, 2011. |
| Kenji Ohmori, “Ultrafast Fourier Transfrom with a Femtosecond-Laser-Driven Molecule”, Séminaire SYRTE, l’Observatoire de Paris, Paris, France, March 7, 2011. |
| Kenji Ohmori, “Ultrafast Fourier Transfrom with a Femtosecond-Laser-Driven Molecule”, Séminaire IPCMS, Université de Strasbourg, Strasbourg, France, March 4, 2011. |
| Kenji Ohmori, “Ultrafast Fourier Transfrom with a Femtosecond-Laser-Driven Molecule”, ERATO Macroscopic Quantum Control Conference on Ultracold Atoms and Molecules, Tokyo, Japan, January 25, 2011. |
| Kenji Ohmori, “Ultrafast Coherent Control of Ultracold Molecules”, Pacifichem 2010, Honolulu, USA, December 17, 2010. |
| Kenji Ohmori, “Simulating Molecular Wave Functions Distorted by Impulsive Electronic Interaction with an Intense Femtosecond Laser Pulse”, Pacifichem 2010, Honolulu, USA, December 16, 2010. |
| Kenji Ohmori, “Ultrafast Fourier Transfrom with a Femtosecond-Laser-Driven Molecule”, Chemistry Department Seminar Series of Temple University, Philadelphia, USA, October 21, 2010. |
| Kenji Ohmori, “Ultrafast Fourier Transfrom with a Femtosecond-Laser-Driven Molecule”, ASILS6, Peking, China, October 15, 2010. |
| Kenji Ohmori, “Coherent Control and the Quantum/Classical Boundary”, Physical Chemistry Colloquium, L u d w i g – M a x i m i l i a n s – U n i v e r s i t ä t M ü n c h e n , Munich, Germany, June 2, 2010. |
| Kenji Ohmori, “Ultrafast Fourier Transform with a Femtosecond-Laser Driven Molecule”, 6th International Workshop on Optical Control of Quantum Dynamics: Theory and Experiment, Ringberg Castle, Tegernsee, Germany, May 30 – June 2, 2010. |
| Kenji Ohmori, “Spatiotemporal Wave-Packet Engineering with Picometer and Attosecond Precision”, Center for Quantum Dynamics Seminar, U n i v e r s i t ä t Heidelberg , Heidelberg, Germany, May 28, 2010. |
| Kenji Ohmori, “Spatiotemporal Wave-Packet Engineering with Picometer and Attosecond Precision”, Molecular Physics Seminars, Fritz-Haber-Institut der Max-Planck-Gesellschaft , Berlin, Germany, May 26, 2010. |
| Kenji Ohmori, “Coherent Control and the Quantum/Classical Boundary; From Cold Molecules to Bulk Solids”, International Workshop on Coherence in Ultracold Molecular Physics, Vancouver, Canada, May 20-23, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecon Precision; From cold molecules to bulk solids”, Symposium on “Physics and Chemistry of Coherently Controlled Quantum Systems”, Inuyama, March 18-20, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecon Precision; From cold molecules to bulk solids”, The 69th Okazaki Conference on “New Frontier in Quantum Chemical Dynamics”, Okazaki, Japan, February 21-23, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecon Precision; From cold molecules to bulk solids”, LCLS-PULSE seminar series, Stanford, USA, January 11, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecon Precision; From cold molecules to bulk solids”, Ultrafast X-ray Science Laboratory (UXSL) seminar series, Berkeley, USA, January 8, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecon Precision; From cold molecules to bulk solids”, 40th Winter Colloquium on The Physics of Quantum Electronics, Snowbird, USA, January 3-7, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precision ~ From Laser-Cooled Atoms to Bulk Solid”, The 4th Winter School of Asian CORE Program “New Perspectives in Material, Photo and Theoretical Molecular Sciences”, Seoul, Korea, December 14-15, 2009. |
| Kenji Ohmori, “Exploring Quantum/Classical Boundary”, Sokendai Asian Winter School “Molecular Science – Central Role in Multidisciplinary Fields”, Okazaki, Japan, December 1-4, 2009. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precision ~ from ultracold atoms to bulk solid”, Oregon Center for Optics Annual Retreat 2009, McMinnville, USA, September 17 – 18, 2009. |
| Kenji Ohmori”, Spatiotemporal Coherent Control with Picometer and Attosecond Precision”, MIT–Harvard Center for Ultracold Atoms Special Seminar, Harvard University, Cambridge, USA, July 6, 2009. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precision”, Gordon Research Conference on “Atomic Physics”, Tilton, USA, June 28 – July 3, 2009. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precisions”, The Center for Advanced Photonics Research Laser Science Seminar Series, Temple University, Philadelphia, USA, June 26, 2009. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precisions”, The Third International Conference on the Science and Technology for Advanced Ceramics (STAC-3), Yokohama, Japan, June 16-18, 2009. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precisions”, ACS 237th National Meeting, Salt Lake City, USA, March 22-26, 2009. |
| Kenji Ohmori, “Quantum Ripples in Molecules; Observation and Control”, Sokendai Asian Winter School “Molecular Sciences on Different Space-Time Scales”, Okazaki, Japan, December 11, 2008. |
| Kenji Ohmori, “Ultrafast Coherent Control of Picometric Quantum Ripples in Molecules”, 8th Symposium on Extreme Photonics “Ultrafast Meets Ultracold,” Gamagori, Japan, November 11, 2008. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, The 6th Asia Pacific Laser Symposium, Nagoya, Japan, January 30, 2008. |
| Kenji Ohmori, “Quantum Coherence in Molecules; Observation and Control”, COAST/CORAL Winter School on Advanced Laser Science, Echigo Yuzawa, Japan, January 16, 2008. |
| Kenji Ohmori, “Tailoring Picometric Quantum Carpets by Controlling Ultrafast Wave-Packet Interference”, 38th Winter Colloquium on The Physics of Quantum Electronics, Snowbird, USA, January 8, 2008. |
| Kenji Ohmori (Invited Speaker), “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, The Brijuni 2007 Conference on Laser Pulse Shaping and Coherent Control of Molecules, Brijuni, Croatia, August 26-31, 2007. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, Gordon Research Conference on “Quantum Control of Light and Matter”, Newport, USA, August 12-17, 2007. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, Workshop on Coherent Control of Ultracold Molecular Processes, Vancouver, Canada, August 1-4, 2007. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, ICPEAC XXV, Freiburg, Germany, July 25-31, 2007. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, International Symposium on Molecular Science of Ultrafast Electronic Dynamics, Sendai, Japan, May 18-19, 2007. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, 66th Okazaki Conference “Soft X-Ray Raman Spectroscopy and Related Phenomena”, Okazaki, Japan, August 17-19, 2006. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, The 1st Canada-Japan SRO-COAST Symposium on Ultrafast Intense Laser Science, Tokyo, Japan, July 7-8, 2006. |
| Kenji Ohmori, “Observation and Control of Picometric Quantum Ripples in a Molecule”, 5th International Symposium for Ultrafast Surface Dynamics, Abashiri, Japan, May 21-25, 2006. |
| Kenji Ohmori, “Ultrahigh-Precision Coherent Control of Molecular Wave Packets”, Pacifichem 2005, Hawaii, USA, December 15-20, 2005. |
| Kenji Ohmori, “Visualizing Picometric Quantum Ripples of Ultrafast Wave-Packet Interference”, International Symposium on Ultrafast Intense Laser Science 4, Hawaii, USA, December 10-14, 2005. |
| Kenji Ohmori, “Phase Sensitive Memory in Molecular Wave Packets; READ and WRITE”, 11th Japan-Korea Joint Symposium on Frontiers in Molecular Science, Okazaki, Japan, March 15-17, 2005. |
| Kenji Ohmori, “Phase Sensitive Memory in Molecular Wave Packets; READ and WRITE”, International Seminar on Atomic Processes in Intense Laser Fields and Related Many-Body Phenomena, Hayama, Japan, January 20-23, 2005. |
| Kenji Ohmori, “High-Precision Coherent Control of Molecules”, The Fourth Asian Photochemistry Conference, Taipei, Taiwan, January 5-10, 2005. |
| Kenji Ohmori, “High-Precision Molecular Wave-Packet Interferometry”, The 24th Physical Chemistry Colloquium “Ultrafast Phenomena – Pico to Atto seconds -“, Sendai (Japan), August 2-3, 2004. |
| Kenji Ohmori, “Sub-10 Attosecond Manipulation of Quantum Phases”, The 5th Pacific Rim Conference on Lasers and Electro-Optics: CLEO/Pacific Rim 2003, Taipei, Taiwan, December 15-19, 2003. |
| Kenji Ohmori, “Molecular wave-packet interferometry with sub-10 attoseconds quantum phase manipulation”, Japan-Korea Joint Seminar on Frontiers of Advanced Molecular Science: Spectroscopy of Ultra-Resolution in Time, Space and Energy, Wako, Japan, November 19-21, 2003. |
| Kenji Ohmori, “Single Molecule Quantum Register”, International Symposium on Ultrafast Intense Laser Science 2: propagation and interaction, Quebec, Canada, September 27-29, 2003. |
| Kenji Ohmori, “Sub-10 Attosecond Manipulation of Quantum Phases”, XX International Symposium on Molecular Beams, Lisbon, Portugal, June 8-13, 2003. |
| Kenji Ohmori, “Sub-10 Attosecond Manipulation of Quantum Phases”, Fifth Asian International Seminar on Atomic and Molecular Physics: AISAMP 5, Nara, Japan, October 1-5, 2002. |
| Kenji Ohmori, “Single Molecule Quantum Memory”, International Symposium on Advanced Laser Manipulation of Molecular Systems, Sendai, Japan, September 6, 2002. |
| Kenji Ohmori, “Attosecond wavepacket engineering”, The 6th East Asian Workshop on Chemical Reactions, Seoul, Korea, March 20-24, 2002. |
| Kenji Ohmori, “Femtosecond spectroscopy of molecular dynamics and attosecond wave packet engineering”, The 5th East Asian Workshop on Chemical Reactions, Sendai, Japan, March 23-25, 2001. |
| Kenji Ohmori, “Femtosecond spectroscopy of molecular dynamics and attosecond wave packet engineering”, The 4th NIMC International Symposium on Photoreaction Control and Photofunctional Materials (PCPM2001), Tsukuba, Japan, March 14-16, 2001. |
| Kenji Ohmori, “Optical Collision approach to the ultrafast dynamics in the transition regions”, The 4th East Asian Workshop on Chemical Reactions, Kaohsiung, Taiwan, March 14-17, 2000. |
| Kenji Ohmori, “Optical Collision to Control the Transition-Region Dynamics”, Japan-U.S. Seminar “Quantum Control of Chemical Reaction Dynamics”, Honolulu, USA, December 12-15, 1999. |
| Kenji Ohmori, “Optical Collision to Open the Doorway to the Transition State”, International Workshop on Stereo Dynamics, Sendai, Japan, July 21, 1999. |
| Kenji Ohmori, “Optical Collision to Open the Doorway to the Transition State”, The 3rd East Asian Workshop on Chemical Reactions, Kyoto, Japan, March 16-19, 1999. |
| Kenji Ohmori, “Ultrafast Pump/Probe Approach to Atom-Molecule Half Collisions”, The 21st International Conference on Lasers & Applications: LASERS ’98, Tucson AZ, USA, December 7-11, 1998. |
| Kenji Ohmori, “Far-Wing Excitation Studies on the Quasimolecular Transitions in the HgRare-Gas, Simple-Molecule Half-Collisions”, 14th International Conference on Spectral Line Shapes, State College PA, USA, June 22-26, 1998. |
| Kenji Ohmori, “Far-Wing Excitation Studies on the Transit Regions in Slow Atomic Collisions”, XXth International Conference on the Physics of Electronic and Atomic Collisions, Vienna, Austria, July 23-29, 1997. |
| Kenji Ohmori, “Photoionisation of Ba Atoms Using a UV Laser Source”, International Workshop on Photoionisation ’97, Chester, England, July 16-21, 1997. |
Department of Photo-Molecular Science, Institute for Molecular Science (IMS), National Institutes of Natural Sciences
sylvain〔at〕ims.ac.jp
123
0564-55-7368
| 2019-Today | Assistant Professor, Department of Photo-Molecular Science, Institute for Molecular Science |
|---|---|
| 2019 | Post-doctoral researcher, Institut d’Optique, group of Prof. Browaeys. |
| 2015-2018 | PhD Degree, Institut d’Optique, Université Paris-Saclay, Palaiseau, France. Thesis: “Quantum simulation of spin models with assembled arrays of Rydberg atoms”. |
| 2013-2015 | Master Degree, Swiss Federal Institute of Technology (ETH), Zürich, Switzerland. Thesis: “Generation and teleportation of qutrits: towards a quantum error correction code”. |
| 2010-2013 | Engineer Degree, Ecole Polytechnique, Palaiseau, France. |
| 2008-2010 | Preparatory classes – Mathematics and Physics, Lycée Faidherbe, Lille. |
| 2008 | Scientific baccalaureat with high honors, Lycée Diderot, Carvin. |
|
Yeelai Chew, Takafumi Tomita, Tirumalasetty Panduranga Mahesh, Seiji Sugawa, Sylvain de Léséleuc, and Kenji Ohmori, “Ultrafast energy exchange between two single Rydberg atoms on the nanosecond timescale,” arXiv:2111.12314 (2021). |
|
S. de Léséleuc, V. Lienhard, P. Scholl, D. Barredo, S. Weber, N. Lang, H.P. Büchler, T. Lahaye, and A. Browaeys, “Experimental realization of a symmetry protected topological phase of interacting bosons with Rydberg atoms,” Science 365, 775 (2019). |
|
D. Barredo, V. Lienhard, S. de Léséleuc, T. Lahaye and A. Browaeys, “Synthetic three-dimensional atomic structures assembled atom by atom,” Nature 561, 79 (2018). |
|
S. Weber, S. de Léséleuc, V. Lienhard, D. Barredo, T. Lahaye, A. Browaeys and H.P. Büchler, “Topologically protected edge states in small Rydberg systems,” Quantum Sci. Technol. 3, 044001 (2018). |
|
V. Lienhard, S. de Léséleuc, D. Barredo, T. Lahaye, A. Browaeys, M. Schuler, L.-P. Henry, A.M. Läuchli, “Observing the space- and time-dependent growth of correlations in dynamically tuned synthetic Ising antiferromagnets,” Phys. Rev. X 8, 021070 (2018). |
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S. de Léséleuc, D. Barredo, V. Lienhard, A. Browaeys and T. Lahaye, “Analysis of imperfections in the coherent optical excitation of single atoms to Rydberg states,” Phys. Rev. A 97, 053803 (2018). |
|
S. de Léséleuc, S. Weber, V. Lienhard, D. Barredo, H.P. Büchler, T. Lahaye, and A. Browaeys,
“Accurate mapping of multilevel Rydberg atoms on interacting spin-1/2 particles for the quantum simulation of Ising models,” Phys. Rev. Lett. 120, 113602 (2018). |
|
S. de Léséleuc, S. Weber, V. Lienhard, D. Barredo, H.P. Büchler, T. Lahaye, and A. Browaeys,
“Accurate mapping of multilevel Rydberg atoms on interacting spin-1/2 particles for the quantum simulation of Ising models,” Phys. Rev. Lett. 120, 113602 (2018). |
|
S. de Léséleuc, D. Barredo, V. Lienhard, A. Browaeys and T. Lahaye, “Local optical control of the resonant dipole-dipole interaction between Rydberg atoms,” Phys. Rev. Lett. 119, 053202 (2017). |
|
M. Marcuzzi, J. Minar, D. Barredo, S. de Lésĺeuc, H. Labuhn, T. Lahaye, A. Browaeys, E. Levi, and I. Lesanovsky, “Facilitation dynamics and localization phenomena in Rydberg lattice gases with position disorder,” Phys. Rev. Lett. 118, 063606 (2017). |
|
D. Barredo, S. de Léséleuc, V. Lienhard, T. Lahaye, and A. Browaeys, “An atom-by-atom assembler of defect-free arbitrary 2d atomic arrays,” Science 354, 1021 (2016). |
|
H. Labuhn, D. Barredo, S. Ravets, S. de Léséleuc, T. Macrì, T. Lahaye and A. Browaeys, “Tunable two-dimensional arrays of single Rydberg atoms for realizing quantum Ising models,” Nature 534, 667 (2016). |
PhD Student
tpm〔at〕ims.ac.jp
112
0564-55-7368
Weight lifting, night camping, calisthenics, read old scriptures
Living together with cats, dogs, cows, birds, raccoons.
स्वस्मै स्वल्पं समाजाय सर्वस्वं
| Oct 2018-present | Ph.D, Institute for Molecular Science, National Institutes of Natural Sciences, Okazaki, Japan |
|---|---|
| Aug 2013-Aug 2018 | BS-MS dual degree in Physics, Indian Institute of Science Education and Research (IISER), Kolkata, India |
| Oct 2018-Sept 2021 | MEXT scholarship |
|---|---|
| Aug 2013-Aug 2018 | BS-MS dual degree in Physics, Indian Institute of Science Education and Research (IISER), Kolkata, India |
|
“Ultrafast energy exchange between two single Rydberg atoms on the nanosecond timescale,” Yeelai Chew, Takafumi Tomita, Tirumalasetty Panduranga Mahesh, Seiji Sugawa, Sylvain de Léséleuc, and Kenji Ohmori Nature Photonics, 16, 724-729 (2022) |
Department of Photo-Molecular Science, Institute for Molecular Science (IMS), National Institutes of Natural Sciences
t-matsubara〔at〕ims.ac.jp
113
0564-55-7368
Ultrafast quantum control of cold atoms
| 2018 | Bachelor of Science The University of Tokyo |
|---|---|
| 2020 | Master of Science, The University of Tokyo |
| 2023 | Ph. D. Science, The University of Tokyo |
| 2023 | Post-Doctoral Fellow, Department of Molecular Science, Institute for Molecular Science |
| 2021 | Presentation Award, The Laser Society of Japan The 41st Annual Meeting |
|---|---|
| 2022 | Student Presentation Award, The Chemical Society of Japan The 102nd Annual Meeting |
| T. Matsubara, S. Fukahori, E. Lötstedt, Y. Nabekawa, K. Yamanouchi, and K. Midorikawa, 300 Attosecond Response of Acetylene in Two-Photon Ionization/Dissociation Processes, Optica 8, 1075 (2021). |
| T. Matsubara, Y. Nabekawa, K. L. Ishikawa, K. Yamanouchi, and K. Midorikawa, Attosecond Optical and Ramsey-Type Interferometry by Postgeneration Splitting of Harmonic Pulse, Ultrafast Sci. 2022, 9858739 (2022). |
Department of Photo-Molecular Science, Institute for Molecular Science (IMS), National Institutes of Natural Sciences
chew〔at〕ims.ac.jp
113
0564-55-7368
| 2020 | 日本物理学会2020年秋季大会, 領域1学生優秀発表賞 |
|---|---|
| 2022 | 総研大賞 |
|
“Ultrafast energy exchange between two single Rydberg atoms on the nanosecond timescale,” Yeelai Chew, Takafumi Tomita, Tirumalasetty Panduranga Mahesh, Seiji Sugawa, Sylvain de Léséleuc, and Kenji Ohmori Nature Photonics, 16, 724-729 (2022) |
Department of Photo-Molecular Science, Institute for Molecular Science (IMS), National Institutes of Natural Sciences
vikas〔at〕ims.ac.jp
112
0564-55-7368
| Dec 2021-Today | Postdoctoral Fellow, Department of Photo-Molecular Science, Institute for Molecular Science |
|---|---|
| July 2016-Aug 2021 | Ph.D. in Quantum Optics, Indian Institute of Technology Patna, India. |
| July2014-June2016 | Master of Science (Physics), Institute of Science, Banaras Hindu University, Varanasi, India. |
| July 2011-June2014 | Bachelor of Science (Hons) Physics, Institute of Science, Banaras Hindu University, Varanasi, India |
|
Vikas S. Chauhan, Rohit Kumar, Dixith Manchaiah, Praveen Kumar and Raghavan K Easwaran, “Narrowing of Electromagnetically Induced Transparency by using Structured Coupling Light in 85Rb Atomic Vapor Medium” Laser Phys.Vol. 30, No.6, 065203, 2020. |
|
Vikas S. Chauhan, Dixith Manchaiah, Sumit Bhushan, Rohit Kumar, and Raghavan K Easwaran, “Theoretical Design of Quantum Memory Unit For Under-Water Quantum Communication Using Electromagnetically Induced Transparency Protocol in Ultracold 87Rb Atoms”, International Journal of Quantum Information, Vol 18, No 5, 2050027, 2020. |
|
Vikas Singh Chauhan, Dixith M, Praveen Kumar, Rohit Kumar, Sumit Bhushan, and Raghavan K Easwaran, “Measurement of Dispersive Properties of Multi Window Electromagnetically Induced Transparency in Rubidium Atomic Vapor Medium by Using Spatial Light Modulator” Optik-International Journal of Light and Electron Optics, 225, 165707, 2021. |
|
Vikas Singh Chauhan, Rohit Kumar, Dixith Manchaiah, and Raghavan K Easwaran, “Enhancement of the Electromagnetically Induced Transparency and Absorption Signals in 85Rb Atomic Vapor Medium by using the Small External Magnetic Field” J. Opt. Soc. Am. B, Vol. 38, No.2, 414012, 2021. |
|
Sumit Bhushan, Vikas S. Chauhan, and Raghavan K Easwaran, “Ultracold Rydberg Atoms for Efficient Storage of Terahertz Frequency Signals using Electromagnetically Induced Transparency” Physics Letters A, Vol. 382, No.48, pp. 3500-3504, 2018. |
|
Sumit Bhushan, Vikas S. Chauhan, and Raghavan K Easwaran, “Broadband Quantum Memory Using Electromagnetically Induced Transparency in Atomic Medium” Journal of Modern Optics, Vol. 66, No. 9, 992-997, 2019. |
|
Sumit Bhushan, Vikas S. Chauhan, and Raghavan K Easwaran, “Effect of Magnetic Field on a Multi Window Ladder Type Electromagnetically Induced Transparency with 87Rb Atoms in Vapour Cell” Physics Letters A, 383, 125885, 2019 |
Department of Photo-Molecular Science, Institute for Molecular Science (IMS), National Institutes of Natural Sciences
vineet〔at〕ims.ac.jp
112
0564-55-7368
| April 2019-Present | Specially Appointed Research Employee, Institute for Molecular Science, National Institutes of Natural Sciences, Okazaki, Japan |
|---|---|
| Oct 2018-March 2019 | Postdoctoral Fellow, Department of Photo-Molecular Science, Institute for Molecular Science |
| Feb 2018-June 2018 | Research Fellow, Centre for Quantum Technologies, National University of Singapore, Singapore. |
| Mar 2015-Feb 2018 | DS Kothari Post-Doctoral Fellow, Physics Department, Indian Institute of Science, Bangalore, India. |
| Feb 2014-Feb 2015 | Research Associate, Physics Department, Indian Institute of Science, Bangalore, India. |
| Dec 2009-Dec 2013 | Ph.D. in Atomic and Optical Physics, Indian Institute of Technology Roorkee, India. |
| July 2007-June 2009 | Master of Science (Physics), Himachal Pradesh University, Shimla, India. |
| July 2004-June 2007 | Bachelor of Science, Himachal Pradesh University, Shimla, India. |
|
“Ultrafast many-body dynamics in an ultracold Rydberg-excited atomic Mott insulator,” V. Bharti, S. Sugawa, M.Mizoguchi, M. Kunimi, Y.Zhang, S. de L s leuc, T.Tomita, T. Franz, M.Weidemüller, K. Ohmori arXiv:2201.09590 (2022). |
|
“Ultrafast creation of overlapping Rydberg electrons in an atomic BEC and Mott-insulator lattice,” M. Mizoguchi, Y. Zhang, M. Kunimi, A. Tanaka, S. Takeda, N. Takei, V. Bharti, K. Koyasu, T. Kishimoto, D. Jaksch, A. Glaetzle, M. Kiffner, G. Masella, G. Pupillo, M. Weidemüller, and K. Ohmori, Physical Review Letters 124, 253201 (2020). |
|
“Observation of electromagnetically induced absorption in a vee+ ladder system”, Mangesh Bhattarai, Vineet Bharti, Sambit Banerjee, Vasant Natarajan arXiv:2011.12670 (2020) |
|
“Study of EIT resonances in an anti-relaxation coated Rb vapor cell,” Mangesh Bhattarai, Vineet Bharti, Vasant Natarajan, Armen Sargsyan and David Sarkisyan, Physics Letters A 383, 91 (2019). |
|
“Observation of CPT for the ground hyperfine interval in 133Cs,” Sumanta Khan, Vineet Bharti and Vasant Natarajan, Science and Culture (ISNA) 84, 344 (2018). |
|
“Tuning of the Hanle effect from EIT to EIA using spatially separated probe and control beams,” Mangesh Bhattarai, Vineet Bharti and Vasant Natarajan, Scientific Reports 8, 7525 (2018). |
|
“Study of CPO resonances on the intercombination line in 173Yb,” Pushpander Kumar, Alok K. Singh, Vineet Bharti, Vasant Natarajan and Kanhaiya Pandey, Journal of Physics B 51, 035502 (2018). |
|
“Coherent population pumping in a bright state,” Sumanta Khan, Vineet Bharti and Vasant Natarajan, Science and Culture (ISNA) 84, 194 (2018). |
|
“Sub- and super-luminal light propagation using a Rydberg state,” Vineet Bharti and Vasant Natarajan,
Optics Communications 392, 180 (2017). |
|
“Polarization dependent tuning of the Hanle effect in the ground state of Cs,” Harish Ravi, Mangesh Bhattarai, Vineet Bharti and Vasant Natarajan, Europhysics Letters, 117, 63002 (2017). |
|
“Coherent population trapping (CPT) versus electromagnetically induced transparency (EIT),” Sumanta Khan, M. P. Kumar, Vineet Bharti and Vasant Natarajan, European Physical Journal D, 71, 38 (2017). |
|
“Optical properties of an inhomogeneously broadened multilevel V-system in the weak and strong probe regimes,” Paramjit Kaur, Vineet Bharti and Ajay Wasan, Indian Journal of Physics, 91, 1115 (2017). |
|
“Wavelength mismatch effect in electromagnetically induced absorption,” Vineet Bharti, Ajay Wasan and Vasant Natarajan, Physics Letters A 380, 2390 (2016). |
|
“Role of dressed-state interference in electromagnetically induced transparency,” Sumanta Khan, Vineet Bharti and Vasant Natarajan, hysics Letters A 380, 4100 (2016). |
|
“Study of a four-level system in vee+ladder configuration,” Vineet Bharti and Vasant Natarajan, Optics Communications 356, 510 (2015). |
|
“Complete wavelength mismatching effect in a six-level Doppler broadened Y-type EIT atomic medium,” Vineet Bharti and Ajay Wasan, Optics Communications 324, 238 (2014). |
|
“Polarization-rotation resonances with sub-natural widths using a control laser,” Sapam Ranjita Chanu, Kanhaiya Pandey, Vineet Bharti, Ajay Wasan and Vasant Natarajan, Europhysics Letters 106, 43001 (2014). |
|
“Optical properties of an inhomogenously broadened ΛV system with multiple excited states,” Paramjit Kaur, Vineet Bharti and Ajay Wasan, Journal of Modern Optics 61, 1339 (2014). |
|
“Influence of multiple excited states on optical properties of N-type Doppler broadened system for D2 line of alkali atoms,” Vineet Bharti and Ajay Wasan, Journal of Physics B 46, 125501 (2013). |
|
“Electromagnetic induced transparency in the Doppler broadened cascade transition with multiple excited states,” Vineet Bharti and Ajay Wasan, Journal of Physics B 45, 185501 (2012). |
Department of Photo-Molecular Science, Institute for Molecular Science (IMS), National Institutes of Natural Sciences
tomita〔at〕ims.ac.jp
123
0564-55-7368
| 2019.4-Today | Research assistant professor, Department of Photo-Molecular Science, Institute for Molecular Science |
|---|---|
| 2016.4-2019.3 | JSPS special researcher (DC1) |
| 2016.4-2019.3 | Doctor course study, Division of Physics and Astronomy, School of Science, Kyoto University |
| 2014.4-2016.3 | Master course study, Division of Physics and Astronomy, School of Science, Kyoto University |
| 2010.4-2014.3 | Bachelor course study, Undergraduate school of Engineering Science, Faculty of Engineering, Kyoto University |
| 2017.3.18 | JPS Autumn Meeting 2016, Division 1, 5th Student Presentation Award |
|---|---|
| 2016.7.28 | ICAP2016, Best Student Poster Award |
|
“Dissipative Bose-Hubbard system with intrinsic two-body loss,” Takafumi Tomita, Shuta Nakajima, Yosuke Takasu and Yoshiro Takahashi Phys. Rev. A 99, 031601(R) (2019). |
|
“Observation of the Mott insulator to superfluid crossover of a driven-dissipative Bose-Hubbard system,” Takafumi Tomita, Shuta Nakajima, Ippei Danshita, Yosuke Takasu and Yoshiro Takahashi Science Advances 3, e1701513 (2017). |
|
“Topological Thouless pumping of ultracold fermions,” Shuta Nakajima, Takafumi Tomita, Shintaro Taie, Tomohiro Ichinose, Hideki Ozawa, Lei Wang, Matthias Troyer and Yoshiro Takahashi Nature Physics 12, 296-300 (2016). |
Secretary
koshida〔at〕ims.ac.jp
114
0564-55-7348
Secretary
nishioka-w〔at〕ims.ac.jp
114
0564-55-7348
Research Enhancement Strategy Office
fujikawa-t〔at〕ms.naist.jp
114
0564-55-7459
Akagi Village, Gunma, JAPAN (now Shibukawa City)
| 1982-2009 | Toyota Central R&D Labs.,Inc. Engaged In-cylinder Engine Combustion Analysis Research using Laser Diagnostic Techniques |
|---|---|
| 2009-2015 | Manager, PR & IP section of TCRDL. |
| 2015-2022 | Secretary General, Toyota Physical and Chemical Research Institute. |
Do my best at the situation
Sub Project Manager
Master Studemt
aito〔at〕ims.ac.jp
113
0564-55-7368
Hiroshima, JAPAN
Music appreciation, Trip, Camera
Premium C.D. Notebook 7mm & Pilot V-corn
| 2023 | Bachelor of Engineering The University of Tokyo |
|---|---|
| 2023 | SRA, Department of Molecular Science, Institute for Molecular Science |
PhD Student
villela〔at〕ims.ac.jp
112
0564-55-7368
| 2021 | Bachelor of Science, Tokyo Institute of Technology |
|---|---|
| 2023 | Master of Science, IMS, SOKENDAI |
Technical Team
k-kataoka〔at〕ims.ac.jp
121
0564-55-7387
Okayama, JAPAN
Classical, Modern jazz, AOR
GARDENING
Research assistance (management of electronic components [soldering, cables, etc.], programming of device control)
Technical Team
matsuo〔at〕ms.naist.jp
121
0564-55-7387
Schrödinger’s Cat (Philosophy of Science)
Listening to music/movies, playing musical instruments
Chocolate
Laboratory management(Lab’s handywoman)
Intellectual Property Team
s-sakai〔at〕ims.ac.jp
117
0564-55-7244
Mosaics, Illuminated manuscripts, Latin calligraphy
「楽しみを希う心」-マイケル ナイマン-
私 (I) は 私 (I)
Intellectual property, contract-related clerical work, etc.
Intellectual Property Team
inukai〔at〕ims.ac.jp
117
0564-55-7244
Golf (Goal: Score 100)
Driving -Seseragi Highway, etc.
「まくとぅそーけーなんくるないさ」:正しい事や、真(誠)の事を続けてしていれば物事何とかなるもの
Discovery and proposal of intellectual property, promotion of contract-related work
Technical Team
nakai〔at〕ims.ac.jp
121
0564-55-7387
Osaka, JAPAN
Takoyaki
Creation and evaluation of fiber optic components
International Outreach
akane〔at〕ms.naist.jp
114
0564-55-7459
Head pressing
Chigasaki, JAPAN
Coffee and Balzac
Promoting our laboratory both domestically and internationally, Helping to connect our laboratory with students and young researchers around the world
Secretary
kawamoto〔at〕ims.ac.jp
114
0564-55-7348
Fortune comes in by a merry gate.
secretarial services and others
Technical Team
m-suzui〔at〕ms.naist.jp
121
0564-55-7387
DIY store visits
Gardening
Technical support (mainly mechanical technology)
Intellectual Property Team
m-okada〔at〕ims.ac.jp
117
0564-55-7244
Secretary/秘書
koshida〔at〕ims.ac.jp
114
0564-55-7348
Secretary/秘書
nishioka-w〔at〕ims.ac.jp
114
0564-55-7348
知的財産チーム
m-okada〔at〕ims.ac.jp
117
0564-55-7244
知的財産チーム
s-sakai〔at〕ims.ac.jp
117
0564-55-7244
モザイク、装飾写本、ラテンカリグラフィー
「楽しみを希う心」-マイケル ナイマン-
私 (I) は 私 (I)
知的財産、契約関連の事務 他
知的財産チーム
inukai〔at〕ims.ac.jp
117
0564-55-7244
ゴルフ 目標:スコア100切
ドライブーせせらぎ街道他
「まくとぅそーけーなんくるないさ」:正しい事や、真(誠)の事を続けてしていれば物事何とかなるもの
知的財産の発掘と提案、契約書関連業務の推進
技術チーム
k-kataoka〔at〕ims.ac.jp
121
0564-55-7387
岡山
クラシック、モダンジャズ、AOR
家庭菜園
研究の補助(電子部品類[はんだ付け、ケーブル、他]の管理、デバイス制御のプログラミング)
技術チーム
nakai〔at〕ims.ac.jp
121
0564-55-7387
大阪
タコ焼き
光ファイバー部品の作成や評価
技術チーム
matsuo〔at〕ms.naist.jp
121
0564-55-7387
シュレディンガーの猫(科学哲学)
音楽・動画の鑑賞、楽器演奏
チョコレート
実験室運営のマネージメント業務(Labの便利屋さん)
International Outreach/インターナショナルアウトリーチ
akane〔at〕ms.naist.jp
114
0564-55-7459
ごめん寝
茅ヶ崎
コーヒーとバルザック
当研究室の情報を国内外に発信したり、世界中の学生・若手研究者の方々と当研究室を繋ぐお手伝い
Secretary/秘書
kawamoto〔at〕ims.ac.jp
114
0564-55-7348
笑う門には福来る
大森教授秘書業務 他
Technical Team 技術チーム
m-suzui〔at〕ms.naist.jp
121
0564-55-7387
ホームセンター巡り
土いじり
研究支援業務(機械技術をメインに)
研究力強化戦略室
fujikawa-t〔at〕ms.naist.jp
114
0564-55-7459
群馬県赤城村(現渋川市)
| 1982-2009 | (株)豊田中央研究所でエンジンシリンダ内のレーザー計測による燃焼解析研究を実施 |
|---|---|
| 2009-2015 | 同所知財・広報関係業務に従事 |
| 2015-2022 | (公財)豊田理化学研究所に出向。事務全般の管理業務を担当 |
その時その場で精いっぱい
サブプロジェクトマネージャ
総研大生
aito〔at〕ims.ac.jp
113
0564-55-7368
広島
音楽鑑賞、旅行、カメラ
Premium C.D. Notebook 7mm & Pilot V-corn
| 2023 | 東京大学工学部物理工学科 卒業 |
|---|---|
| 2023 | 分子科学研究所光分子科学第二部門 SRA |
総研大生
villela〔at〕ims.ac.jp
112
0564-55-7368
総研大生
tpm〔at〕ims.ac.jp
112
0564-55-7368
ウェイトリフティング、ナイトキャンプ、筋トレ、古い経典の読破
猫、犬、牛、鳥、アライグマと一緒に暮らす。
“स्वस्मै स्वल्पं समाजाय सर्वस्वं
“A little for himself, everything for society”
| Oct 2018-present | Ph.D, Institute for Molecular Science, National Institutes of Natural Sciences, Okazaki, Japan |
|---|---|
| Aug 2013-Aug 2018 | BS-MS dual degree in Physics, Indian Institute of Science Education and Research (IISER), Kolkata, India |
| Oct 2018-Sept 2021 | MEXT scholarship |
|---|---|
| Aug 2013-Aug 2018 | BS-MS dual degree in Physics, Indian Institute of Science Education and Research (IISER), Kolkata, India |
|
“Ultrafast energy exchange between two single Rydberg atoms on the nanosecond timescale,” Yeelai Chew, Takafumi Tomita, Tirumalasetty Panduranga Mahesh, Seiji Sugawa, Sylvain de Léséleuc, and Kenji Ohmori Nature Photonics, 16, 724-729 (2022) |
自然科学研究機構 分子科学研究所 光分子科学研究領域 光分子科学第二研究部門
t-matsubara〔at〕ims.ac.jp
113
0564-55-7368
冷却原子の超高速量子制御
| 2018年 | 東京大学理学部化学科 卒業 |
|---|---|
| 2020年 | 東京大学大学院理学系研究科化学専攻 博士前期課程修了 |
| 2023年 | 東京大学大学院理学系研究科化学専攻 博士後期課程修了 |
| 2023年 | 分子科学研究所光分子科学第二部門 特任研究員 |
| 2021年 | レーザー学会学術講演会第41回年次大会 優秀論文発表賞 |
|---|---|
| 2022年 | 日本化学会第102春季年会 学生講演賞 |
| T. Matsubara, S. Fukahori, E. Lötstedt, Y. Nabekawa, K. Yamanouchi, and K. Midorikawa, 300 Attosecond Response of Acetylene in Two-Photon Ionization/Dissociation Processes, Optica 8, 1075 (2021). |
| T. Matsubara, Y. Nabekawa, K. L. Ishikawa, K. Yamanouchi, and K. Midorikawa, Attosecond Optical and Ramsey-Type Interferometry by Postgeneration Splitting of Harmonic Pulse, Ultrafast Sci. 2022, 9858739 (2022). |
自然科学研究機構 分子科学研究所 光分子科学研究領域 光分子科学第二研究部門
chew〔at〕ims.ac.jp
113
0564-55-7368
| 2020 | 日本物理学会2020年秋季大会, 領域1学生優秀発表賞 |
|---|---|
| 2022 | 総研大賞 |
|
“Ultrafast energy exchange between two single Rydberg atoms on the nanosecond timescale,” Yeelai Chew, Takafumi Tomita, Tirumalasetty Panduranga Mahesh, Seiji Sugawa, Sylvain de Léséleuc, and Kenji Ohmori Nature Photonics, 16, 724-729 (2022) |
自然科学研究機構 分子科学研究所 光分子科学研究領域 光分子科学第二研究部門
vikas〔at〕ims.ac.jp
112
0564-55-7368
| Dec 2021-Today | Postdoctoral Fellow, Department of Photo-Molecular Science, Institute for Molecular Science |
|---|---|
| July 2016-Aug 2021 | Ph.D. in Quantum Optics, Indian Institute of Technology Patna, India. |
| July2014-June2016 | Master of Science (Physics), Institute of Science, Banaras Hindu University, Varanasi, India. |
| July 2011-June2014 | Bachelor of Science (Hons) Physics, Institute of Science, Banaras Hindu University, Varanasi, India |
|
Vikas S. Chauhan, Rohit Kumar, Dixith Manchaiah, Praveen Kumar and Raghavan K Easwaran, “Narrowing of Electromagnetically Induced Transparency by using Structured Coupling Light in 85Rb Atomic Vapor Medium” Laser Phys.Vol. 30, No.6, 065203, 2020. |
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Vikas S. Chauhan, Dixith Manchaiah, Sumit Bhushan, Rohit Kumar, and Raghavan K Easwaran, “Theoretical Design of Quantum Memory Unit For Under-Water Quantum Communication Using Electromagnetically Induced Transparency Protocol in Ultracold 87Rb Atoms”, International Journal of Quantum Information, Vol 18, No 5, 2050027, 2020. |
|
Vikas Singh Chauhan, Dixith M, Praveen Kumar, Rohit Kumar, Sumit Bhushan, and Raghavan K Easwaran, “Measurement of Dispersive Properties of Multi Window Electromagnetically Induced Transparency in Rubidium Atomic Vapor Medium by Using Spatial Light Modulator” Optik-International Journal of Light and Electron Optics, 225, 165707, 2021. |
|
Vikas Singh Chauhan, Rohit Kumar, Dixith Manchaiah, and Raghavan K Easwaran, “Enhancement of the Electromagnetically Induced Transparency and Absorption Signals in 85Rb Atomic Vapor Medium by using the Small External Magnetic Field” J. Opt. Soc. Am. B, Vol. 38, No.2, 414012, 2021. |
|
Sumit Bhushan, Vikas S. Chauhan, and Raghavan K Easwaran, “Ultracold Rydberg Atoms for Efficient Storage of Terahertz Frequency Signals using Electromagnetically Induced Transparency” Physics Letters A, Vol. 382, No.48, pp. 3500-3504, 2018. |
|
Sumit Bhushan, Vikas S. Chauhan, and Raghavan K Easwaran, “Broadband Quantum Memory Using Electromagnetically Induced Transparency in Atomic Medium” Journal of Modern Optics, Vol. 66, No. 9, 992-997, 2019. |
|
Sumit Bhushan, Vikas S. Chauhan, and Raghavan K Easwaran, “Effect of Magnetic Field on a Multi Window Ladder Type Electromagnetically Induced Transparency with 87Rb Atoms in Vapour Cell” Physics Letters A, 383, 125885, 2019 |
自然科学研究機構 分子科学研究所 光分子科学研究領域 光分子科学第二研究部門
vineet〔at〕ims.ac.jp
112
0564-55-7368
Atomic Physics, Ultracold Atoms (BEC and Optical Lattices), Rydberg Atoms, Ultrafast Quantum Simulator, Quantum Optics
| April 2019-Present | Specially Appointed Research Employee, Institute for Molecular Science, National Institutes of Natural Sciences, Okazaki, Japan |
|---|---|
| Oct 2018-March 2019 | Postdoctoral Fellow, Department of Photo-Molecular Science, Institute for Molecular Science |
| Feb 2018-June 2018 | Research Fellow, Centre for Quantum Technologies, National University of Singapore, Singapore. |
| Mar 2015-Feb 2018 | DS Kothari Post-Doctoral Fellow, Physics Department, Indian Institute of Science, Bangalore, India. |
| Feb 2014-Feb 2015 | Research Associate, Physics Department, Indian Institute of Science, Bangalore, India. |
| Dec 2009-Dec 2013 | Ph.D. in Atomic and Optical Physics, Indian Institute of Technology Roorkee, India. |
| July 2007-June 2009 | Master of Science (Physics), Himachal Pradesh University, Shimla, India. |
| July 2004-June 2007 | Bachelor of Science, Himachal Pradesh University, Shimla, India. |
|
“Ultrafast many-body dynamics in an ultracold Rydberg-excited atomic Mott insulator,” V. Bharti, S. Sugawa, M.Mizoguchi, M. Kunimi, Y.Zhang, S. de L s leuc, T.Tomita, T. Franz, M.Weidemüller, K. Ohmori arXiv:2201.09590 (2022). |
|
“Ultrafast creation of overlapping Rydberg electrons in an atomic BEC and Mott-insulator lattice,” M. Mizoguchi, Y. Zhang, M. Kunimi, A. Tanaka, S. Takeda, N. Takei, V. Bharti, K. Koyasu, T. Kishimoto, D. Jaksch, A. Glaetzle, M. Kiffner, G. Masella, G. Pupillo, M. Weidemüller, and K. Ohmori, Physical Review Letters 124, 253201 (2020). |
|
“Observation of electromagnetically induced absorption in a vee+ ladder system”, Mangesh Bhattarai, Vineet Bharti, Sambit Banerjee, Vasant Natarajan arXiv:2011.12670 (2020) |
|
“Study of EIT resonances in an anti-relaxation coated Rb vapor cell,” Mangesh Bhattarai, Vineet Bharti, Vasant Natarajan, Armen Sargsyan and David Sarkisyan, Physics Letters A 383, 91 (2019). |
|
“Observation of CPT for the ground hyperfine interval in 133Cs,” Sumanta Khan, Vineet Bharti and Vasant Natarajan, Science and Culture (ISNA) 84, 344 (2018). |
|
“Tuning of the Hanle effect from EIT to EIA using spatially separated probe and control beams,” Mangesh Bhattarai, Vineet Bharti and Vasant Natarajan, Scientific Reports 8, 7525 (2018). |
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“Study of CPO resonances on the intercombination line in 173Yb,” Pushpander Kumar, Alok K. Singh, Vineet Bharti, Vasant Natarajan and Kanhaiya Pandey, Journal of Physics B 51, 035502 (2018). |
|
“Coherent population pumping in a bright state,” Sumanta Khan, Vineet Bharti and Vasant Natarajan, Science and Culture (ISNA) 84, 194 (2018). |
|
“Sub- and super-luminal light propagation using a Rydberg state,” Vineet Bharti and Vasant Natarajan,
Optics Communications 392, 180 (2017). |
|
“Polarization dependent tuning of the Hanle effect in the ground state of Cs,” Harish Ravi, Mangesh Bhattarai, Vineet Bharti and Vasant Natarajan, Europhysics Letters, 117, 63002 (2017). |
|
“Coherent population trapping (CPT) versus electromagnetically induced transparency (EIT),” Sumanta Khan, M. P. Kumar, Vineet Bharti and Vasant Natarajan, European Physical Journal D, 71, 38 (2017). |
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“Optical properties of an inhomogeneously broadened multilevel V-system in the weak and strong probe regimes,” Paramjit Kaur, Vineet Bharti and Ajay Wasan, Indian Journal of Physics, 91, 1115 (2017). |
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“Wavelength mismatch effect in electromagnetically induced absorption,” Vineet Bharti, Ajay Wasan and Vasant Natarajan, Physics Letters A 380, 2390 (2016). |
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“Role of dressed-state interference in electromagnetically induced transparency,” Sumanta Khan, Vineet Bharti and Vasant Natarajan, hysics Letters A 380, 4100 (2016). |
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“Study of a four-level system in vee+ladder configuration,” Vineet Bharti and Vasant Natarajan, Optics Communications 356, 510 (2015). |
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“Complete wavelength mismatching effect in a six-level Doppler broadened Y-type EIT atomic medium,” Vineet Bharti and Ajay Wasan, Optics Communications 324, 238 (2014). |
|
“Polarization-rotation resonances with sub-natural widths using a control laser,” Sapam Ranjita Chanu, Kanhaiya Pandey, Vineet Bharti, Ajay Wasan and Vasant Natarajan, Europhysics Letters 106, 43001 (2014). |
|
“Optical properties of an inhomogenously broadened ΛV system with multiple excited states,” Paramjit Kaur, Vineet Bharti and Ajay Wasan, Journal of Modern Optics 61, 1339 (2014). |
|
“Influence of multiple excited states on optical properties of N-type Doppler broadened system for D2 line of alkali atoms,” Vineet Bharti and Ajay Wasan, Journal of Physics B 46, 125501 (2013). |
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“Electromagnetic induced transparency in the Doppler broadened cascade transition with multiple excited states,” Vineet Bharti and Ajay Wasan, Journal of Physics B 45, 185501 (2012). |
自然科学研究機構 分子科学研究所 光分子科学研究領域 光分子科学第二研究部門
tomita〔at〕ims.ac.jp
123
0564-55-7368
| 2019.4-Today | 現職 |
|---|---|
| 2016.4-2019.3 | 京都大学大学院 理学研究科 物理学・宇宙物理学専攻 博士課程 修了 (物理学第一分野 量子光学・レーザー分光学研究室) |
| 2016.4-2019.3 | 日本学術振興会 特別研究員DC1 |
| 2014.4-2016.3 | 京都大学大学院 理学研究科 物理学・宇宙物理学専攻 修士課程 修了 (物理学第一分野 量子光学・レーザー分光学研究室) |
| 2010.4-2014.3 | 京都大学 工学部 物理工学科 原子核工学専攻 卒業 (量子物理学研究室) |
| 2017.3.18 | 日本物理学会2016年秋季大会, 領域1第5回学生プレゼンテーション賞 |
|---|---|
| 2016.7.28 | ICAP2016, Best Student Poster Award |
|
“Dissipative Bose-Hubbard system with intrinsic two-body loss,” Takafumi Tomita, Shuta Nakajima, Yosuke Takasu and Yoshiro Takahashi Phys. Rev. A 99, 031601(R) (2019). |
|
“Observation of the Mott insulator to superfluid crossover of a driven-dissipative Bose-Hubbard system,” Takafumi Tomita, Shuta Nakajima, Ippei Danshita, Yosuke Takasu and Yoshiro Takahashi Science Advances 3, e1701513 (2017). |
|
“Topological Thouless pumping of ultracold fermions,” Shuta Nakajima, Takafumi Tomita, Shintaro Taie, Tomohiro Ichinose, Hideki Ozawa, Lei Wang, Matthias Troyer and Yoshiro Takahashi Nature Physics 12, 296-300 (2016). |
自然科学研究機構 分子科学研究所 光分子科学研究領域 光分子科学第二研究部門
sylvain〔at〕ims.ac.jp
123
0564-55-7368
N9322C Basic Spectrum Analyzer
家庭菜園:運動にもなるし、リラックスもできるし、おいしい食べ物にもなるし、いいことづくめです!
研究室の雰囲気を盛り上げる、新メンバーの発掘
| 2019-Today | Assistant Professor, Department of Photo-Molecular Science, Institute for Molecular Science |
|---|---|
| 2019 | Post-doctoral researcher, Institut d’Optique, group of Prof. Browaeys. |
| 2015-2018 | PhD Degree, Institut d’Optique, Université Paris-Saclay, Palaiseau, France. Thesis: “Quantum simulation of spin models with assembled arrays of Rydberg atoms”. |
| 2013-2015 | Master Degree, Swiss Federal Institute of Technology (ETH), Zürich, Switzerland. Thesis: “Generation and teleportation of qutrits: towards a quantum error correction code”. |
| 2010-2013 | Engineer Degree, Ecole Polytechnique, Palaiseau, France. |
| 2008-2010 | Preparatory classes – Mathematics and Physics, Lycée Faidherbe, Lille. |
| 2008 | Scientific baccalaureat with high honors, Lycée Diderot, Carvin. |
|
Yeelai Chew, Takafumi Tomita, Tirumalasetty Panduranga Mahesh, Seiji Sugawa, Sylvain de Léséleuc, and Kenji Ohmori, “Ultrafast energy exchange between two single Rydberg atoms on the nanosecond timescale,” arXiv:2111.12314 (2021). |
|
S. de Léséleuc, V. Lienhard, P. Scholl, D. Barredo, S. Weber, N. Lang, H.P. Büchler, T. Lahaye, and A. Browaeys, “Experimental realization of a symmetry protected topological phase of interacting bosons with Rydberg atoms,” Science 365, 775 (2019). |
|
D. Barredo, V. Lienhard, S. de Léséleuc, T. Lahaye and A. Browaeys, “Synthetic three-dimensional atomic structures assembled atom by atom,” Nature 561, 79 (2018). |
|
S. Weber, S. de Léséleuc, V. Lienhard, D. Barredo, T. Lahaye, A. Browaeys and H.P. Büchler, “Topologically protected edge states in small Rydberg systems,” Quantum Sci. Technol. 3, 044001 (2018). |
|
V. Lienhard, S. de Léséleuc, D. Barredo, T. Lahaye, A. Browaeys, M. Schuler, L.-P. Henry, A.M. Läuchli, “Observing the space- and time-dependent growth of correlations in dynamically tuned synthetic Ising antiferromagnets,” Phys. Rev. X 8, 021070 (2018). |
|
S. de Léséleuc, D. Barredo, V. Lienhard, A. Browaeys and T. Lahaye,
“Analysis of imperfections in the coherent optical excitation of single atoms to Rydberg states,” Phys. Rev. A 97, 053803 (2018). |
|
S. de Léséleuc, S. Weber, V. Lienhard, D. Barredo, H.P. Büchler, T. Lahaye, and A. Browaeys,
“Accurate mapping of multilevel Rydberg atoms on interacting spin-1/2 particles for the quantum simulation of Ising models,” Phys. Rev. Lett. 120, 113602 (2018). |
|
S. de Léséleuc, S. Weber, V. Lienhard, D. Barredo, H.P. Büchler, T. Lahaye, and A. Browaeys,
“Accurate mapping of multilevel Rydberg atoms on interacting spin-1/2 particles for the quantum simulation of Ising models,” Phys. Rev. Lett. 120, 113602 (2018). |
|
S. de Léséleuc, D. Barredo, V. Lienhard, A. Browaeys and T. Lahaye, “Local optical control of the resonant dipole-dipole interaction between Rydberg atoms,” Phys. Rev. Lett. 119, 053202 (2017). |
|
M. Marcuzzi, J. Minar, D. Barredo, S. de Lésĺeuc, H. Labuhn, T. Lahaye, A. Browaeys, E. Levi, and I. Lesanovsky, “Facilitation dynamics and localization phenomena in Rydberg lattice gases with position disorder,” Phys. Rev. Lett. 118, 063606 (2017). |
|
D. Barredo, S. de Léséleuc, V. Lienhard, T. Lahaye, and A. Browaeys, “An atom-by-atom assembler of defect-free arbitrary 2d atomic arrays,” Science 354, 1021 (2016). |
|
H. Labuhn, D. Barredo, S. Ravets, S. de Léséleuc, T. Macrì, T. Lahaye and A. Browaeys, “Tunable two-dimensional arrays of single Rydberg atoms for realizing quantum Ising models,” Nature 534, 667 (2016). |
光分子科学研究領域
研究主幹
自然科学研究機構
分子科学研究所
光分子科学研究領域
光分子科学第二研究部門
ohmori〔at〕ims.ac.jp
119
0564-55-7361
| 2010-present | 分子科学研究所 光分子科学研究領域 研究主幹 |
|---|---|
| 2007-2010 | 分子科学研究所 分子制御レーザー開発研究センター センター長 |
| 2003-present | 自然科学研究機構 分子科学研究所 教授 |
| 2001-2003 | 東北大学 助教授 |
| 1992-2001 | 東北大学 助手 |
| 1992 | 東京大学大学院工学系研究課博士課程修了 博士(工学) |
| 1987 | 東京大学工学部卒業 |
| 2014-2016 | 仏・Strasbourg大学 客員教授 |
|---|---|
| 2012-present | 独・Heidelberg大学 フンボルト賞受賞者 |
| 2009-2011 | 東京大学 客員教授 |
| 2007-2008 | 東京工業大学 客員教授 |
| 2004-2005 | 東北大学 客員教授 |
| 2023-present | 文部科学省 科学技術・学術審議会「量子科学技術委員会」主査 |
|---|---|
| 2019 | 内閣官房イノベーション推進室イノベーション政策強化推進のための有識者会議委員 |
| 2019 | 米国Gordon研究会議・議長「物質と光の量子制御」 |
| 2019 | 米国Gordon研究会議・評議会メンバー |
| 2018-present | ESF College Expert Reviewer, European Science Foundation (ESF) |
| 2018-present | 文部科学省「光・量子飛躍フラッグシッププログラム (Q-LEAP)」 |
| 2018-present | 大規模基礎基盤研究 研究代表者 |
| 2018-present | Journal of Physics B: Atomic, Molecular and Optical Physics, IOP Publishing 編集委員 |
| 2017-present | Scientific and Industrial Advisory Board (SIAB), EU Future Emerging Technology, HORIZON2020, European Commission |
| 2016-present | 科研費・特別推進研究 研究代表者 |
| 2015-2023 | 文部科学省 科学技術・学術審議会 専門委員「量子科学技術委員会」副主査 |
| 2015-2017 | Journal of Physics B: Atomic, Molecular and Optical Physics, IOP Publishing 国際諮問委員 |
| 2010-2016 | 科学技術振興機構 (JST)・CREST研究 研究代表者 |
| 2007-present | European Research Council (ERC) 外部評価者 |
| 2021 | 紫綬褒章 (2021) (量子物理学研究功績)
NEWS |
|---|---|
| 2018 | 文部科学大臣表彰・科学技術賞 (2018)
NEWS |
| 2017 | 松尾財団宅間宏記念学術賞 (2017)
NEWS |
| 2012 | ドイツ連邦共和国・フンボルト賞 (2012)
NEWS |
| 2009 | アメリカ物理学会フェロー表彰 (2009) “Pioneering development of spatiotemporal wave-packet engineering in which the ultrafast wave-packet interference in a molecule is visualized and controlled with precisions on the picometer spatial and attosecond temporal scales.” |
| 2008 | Norman Hascoe Lecturer, Norman Hascoe Distinguished Lecture Series, University of Connecticut, USA (2008) |
| 2007 | 日本学術振興会賞 (2007)
“アト秒コヒーレント制御の開発と応用”
NEWS |
| 2007 | 日本学士院学術奨励賞 (2007)
“アト秒コヒーレント制御法の開発と応用”
NEWS (日本学士院学術奨励賞は日本の45歳以下の若手研究者の最高の栄誉であり、人文・社会科学、化学、物理学、生物学、工学、医学などのすべての科学分野から毎年5-6名に授与される。大森教授は物理・化学分野で最初の受賞者である。) |
| 1998 | 光科学技術研究振興財団研究表彰 (1998) |
|
“Ultrafast energy exchange between two single Rydberg atoms on a nanosecond timescale,”
Y. ChewY. Chew, T. Tomita, T. P. Mahesh, S. Sugawa, S. de Léséleuc & K. Ohmori Nature Photonics (2022) |
|
“Ultrafast many-body dynamics in an ultracold Rydberg-excited atomic Mott insulator,” V. Bharti, S. Sugawa, M.Mizoguchi, M. Kunimi, Y.Zhang, S. de L s leuc, T.Tomita, T. Franz, M.Weidemüller, K. Ohmori arXiv:2201.09590 (2022). |
|
“Ultrafast energy exchange between two single Rydberg atoms on the nanosecond timescale,” Yeelai Chew, Takafumi Tomita, Tirumalasetty Panduranga Mahesh, Seiji Sugawa, Sylvain de Léséleuc, and Kenji Ohmori arXiv:2111.12314 (2021). |
|
“Engineering quantum wave-packet dispersion with a strong non-resonant femtosecond laser pulse,” Hiroyuki Katsuki, Yukiyoshi Ohtsuki, Toru Ajiki, Haruka Goto, and Kenji Ohmori Phys. Rev. Research. 3, 043021 (2021). |
|
“Optimal control for suppressing wave packet spreading with strong non-resonant laser pulses,” Yukiyoshi Ohtsuki, Tomotaro Namba, Hiroyuki Katsuki and Kenji Ohmori Phys. Rev. A. 104, 033107 (2021). |
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“Ultrafast creation of overlapping Rydberg electrons in an atomic BEC and Mott-insulator lattice,” Michiteru Mizoguchi, Yichi Zhang, Masaya Kunimi, Akira Tanaka, Shuntaro Takeda, Nobuyuki Takei, Vineet Bharti, Kuniaki Koyasu, Tetsuo Kishimoto, Dieter Jaksch, Alexander Glaetzle, Martin Kiffner, Guido Masella, Guido Pupillo, Matthias Weidemüller, and Kenji Ohmori Phys. Rev. Lett. 124, 253201(2020). |
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“Attosecond Control of Restoration of Electronic Structure Symmetry”, ChunMei Liu, Jörn Manz, Kenji Ohmori, Christian Sommer, Nobuyuki Takei, Jean Christophe Tremblay, and Yichi Zhang Phys. Rev. Lett. 121, 173201 doi:10.1103/PhysRevLett.121.173201 (2018). |
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“Ultrafast Coherent Control of Condensed Matter with Attosecond Precision”, Hiroyuki Katsuki, Nobuyuki Takei, Christian Sommer, and Kenji Ohmori Acc. Chem. Res. 51, 1174–1184 (2018). |
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“Direct observation of ultrafast many-body electron dynamics in an ultracold Rydberg gas”, Nobuyuki Takei, Christian Sommer, Claudiu Genes, Guido Pupillo, Haruka Goto, Kuniaki Koyasu, Hisashi Chiba, Matthias Weidemüller, and Kenji Ohmori Nature Communications 7, 13449 doi:10.1038/ncomms13449 (2016). |
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“Time-domain Ramsey interferometry with interacting Rydberg atoms”,
Christian Sommer, Guido Pupillo, Nobuyuki Takei, Shuntaro Takeda, Akira Tanaka, Kenji Ohmori, and Claudiu Genes Phys. Rev. A. 94, 053607 (2016). |
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“Simultaneous manipulation and observation of multiple ro-vibrational eigenstates in solid para-hydrogen”, Hiroyuki Katsuki and Kenji Ohmori J. Chem. Phys. 145, 124316 (2016). |
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“Manipulation and visualization of two-dimensional phase distribution of vibrational wave functions in solid parahydrogen crystal”, Hiroyuki Katsuki, Kenzo Ohmori, Toru Horie, Hisao Yanagi, and Kenji Ohmori, Phys. Rev. B. 92, 094511 (2015). |
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“Quantum Superrotor”, Kenji Ohmori Physics 7, 29 (2014). |
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“Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, Kenji Ohmori Found. Phys. 44, 813-818 (2014). |
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“Theoretical/numerical study on strong-laser-induced interference in the B state of I2”, Y. Ohtsuki, H. Goto, H. Katsuki, and K. Ohmori Phys. Chem. Chem. Phys. 16, 5689-5697 (2014) |
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“All-Optical Control and Visualization of Ultrafast Two-Dimensional Atomic Motions in a Single Crystal of Bismuth”, H. Katsuki, J. C. Delagnes, K. Hosaka, K. Ishikawa, H. Chiba, E. S. Zijlstra, M. E. Garcia, H. Takahashi, K. Watanabe, M. Kitajima, Y. Matsumoto, K. G. Nakamura, and K. Ohmori Nature Communications 4, 2801-1 – 2801-7 (2013). |
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“Optically engineered quantum interference of delocalized wavefunctions in a bulk solid : The example of solid para-hydrogen”, Hiroyuki Katsuki, Yosuke Kayanuma, and Kenji Ohmori, Phys. Rev. B. 88, 014507-1- 014507-6(2013). |
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“Wavepacket interferometry for nuclear densities and flux densities”, Timm Bredtmann, Hiroyuki Katsuki, Jörn Manz, Kenji Ohmori, and Christian Stemmle, Molecular Physics, 111, 1691-1696 (2013). (invited paper) |
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“Optical manipulation of coherent phonons in superconducting YBa2Cu3O7-d thin films”,
Yasuaki Okano, Hiroyuki Katsuki, Yoshihiro Nakagawa, Hiroshi Takahashi, Kazutaka G. Nakamura and Kenji Ohmori, Faraday Discuss., 153, 375–382 (2011). (invited paper) |
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“Strong-Laser-Induced Quantum Interference”,
Haruka Goto, Hiroyuki Katsuki, Heide Ibrahim, Hisashi Chiba, and Kenji Ohmori,
Nature Physics, 7, 383–385 (2011). Highlighted by “News and Views” in Nature Physics. Nature Physics 7, 373–374 (2011). Highlighted by “Research Highlights” in Nature Photonics. Nature Photonics 5, 382–383 (2011). |
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“Optical modification of the vibrational distribution of the iodine molecule”, H. Goto, H. Katsuki, and K. Ohmori, Chem. Phys. Lett. 493, 170-172 (2010). |
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“Wave packet interferometry with attosecond precision and picometric structure”, H. Katsuki, H. Chiba, C. Meier, B. Girard, and K. Ohmori, Phys. Chem. Chem. Phys. 12, 5189-5198 (2010). |
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“Ultrafast Fourier transform with a femtosecond-laser-driven molecule”, K. Hosaka, H. Shimada, H. Chiba, H. Katsuki, Y. Teranishi, Y. Ohtsuki, and K. Ohmori, Phys. Rev. Lett. 104, 180501-1-180501-4 (2010). |
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“Ultrafast Fourier transform with a femtosecond-laser-driven molecule”, K. Hosaka, H. Shimada, H. Chiba, H. Katsuki, Y. Teranishi, Y. Ohtsuki, and K. Ohmori, Phys. Rev. Lett. 104, 180501-1-180501-4 (2010). Selected for “Editors’ Suggestions” in PRL. Covered by “Viewpoints” in Physics; Physics 3, 38 (2010). Covered by “Research Highlights” in Nature; Nature 465, 138-139 (2010). |
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“Optical control and mode selective excitation of coherent phonons in YBa2Cu3O7-d”, H. Takahashi, K. Kato, H. Nakano, M. Kitajima, K. Ohmori, and K. G. Nakamura, Solid State Commun. 149, 1955-1957 (2009). |
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“Actively tailored spatiotemporal images of quantum interference on the picometer and femtosecond scales”, H. Katsuki, H. Chiba, C. Meier, B. Girard, and K. Ohmori, Phys. Rev. Lett. 102, 103602-1—103602-4 (2009). |
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“Wave-packet and coherent control dynamics”, Kenji Ohmori, Annu. Rev. Phys. Chem. 60, 487-511 (2009). |
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“Development of ultrahigh-precision coherent control and its applications”, Kenji Ohmori, Proc. Jpn. Acad., Ser. B 84, 167-175 (2008). |
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“READ and WRITE amplitude and phase information by using high-precision molecular wave-packet interferometry”, H. Katsuki, K. Hosaka, H. Chiba, and K. Ohmori, Phys. Rev. A 76, 013403-1—013403-13 (2007). |
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“Visualizing picometric quantum ripples of ultrafast wave-packet interference”, H. Katsuki, H. Chiba, B. Girard, C. Meier, and K. Ohmori, Science 311, 1589-1592 (2006). |
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“Real-time observation of phase-controlled molecular wave-packet interference”, K. Ohmori, H. Katsuki, H. Chiba, M. Honda, Y. Hagihara, K. Fujiwara, Y. Sato, and K. Ueda, Phys. Rev. Lett. 96, 093002-1-093002-4 (2006). |
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“Implementation of quantum gate operations in molecules with weak laser fields”, Y. Teranishi, Y. Ohtsuki, K. Hosaka, H. Chiba, H. Katsuki, and K. Ohmori, J. Chem. Phys. 124, 114110-1—114110-9 (2006). |
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“High precision molecular wave-packet interferometry with Hg-Ar dimmers”, Kenji Ohmori, Yukinori Sato, Evgueni E. Nikitin, and Stuart A. Rice, Phys. Rev. Lett. 91, 243003-1-243003-4 (2003). |
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“Energy dependence of the intramultiplet mixing cross section in Hg–N2 collisions: conical intersection mechanism, indication at tunneling and interference”, E.I.Dashevskaya, E.E.Nikitin, K.Ohmori, M.Okunishi, I.Oref, and Y.Sato, Phys. Chem. Chem. Phys. 5, 1198 (2003). |
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“Development of attosecond optical-phase manipulation for the wave-packet engineering”, K.Ohmori, M.Nakamura, H.Chiba, K.Amano, M.Okunishi, and Y.Sato, J. Photochemistry & Photobiology A: Chemistry 145, 17-21 (2001). |
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“Double-pulse manipulation of vibrational wave packets in HgAr van der Waals complex”, Y.Sato, H.Chiba, M.Nakamura, and K.Ohmori, in Laser Control and Manipulation of Molecules, edited by R.J.Gordon, A.Bandrauk, and Y.Fujimura (ACS Books, 2001), pp. 155-170. |
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“Spectroscopy of quasimolecular optical transitions: Ca(4s2 1S0 – 4s4p 1P, 4s3d 1D2)-He. The influence of radiation width”, E.Bichoutskaia, A.Devdariani, K.Ohmori, O.Misaki, K.Ueda, and Y.Sato, J. Phys. B: At. Mol. Opt. Phys. 34, 2301-2312 (2001). |
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“Femtosecond real-time probing of the ultrafast energy dissipation in the Hg(63P1)-CO van der Waals interaction”, K.Ohmori, K.Amano, H.Chiba, M.Okunishi, and Y.Sato, J. Chem. Phys. 113, 461-464 (2000). (in Communications) |
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“A high-resolution angle-resolved electron spectroscopy study of the 5dnp Rydberg series in Ba”, K.Ohmori, H.Chiba, K.Amano, K.Ueda, Y.Sato, J.B.West, K.J.Ross, and M.Aymar, J. Phys. B: At. Mol. Opt. Phys. 32, 5223-5235 (1999). |
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“Far-wing excitation study on the transition regions of the metastable mercury atom collisions: Hg(63P2) + N2 and CO”, K.Ohmori, T.Kurosawa, H.Chiba, M.Okunishi, Y.Sato, A.Z.Devdariani, and E.E.Nikitin, Chem. Phys. Lett. 315, 411-415 (1999). |
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“Collision-induced fine-structure transitions of Hg (63P163P0) with N2 and CO. 1. Initial orbital alignment effects”, M.Okunishi, J.Hashimoto, H.Chiba, K.Ohmori, K.Ueda, and Y.Sato, J. Phys. Chem. 103, 1734-1741 (1999). |
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“Collision-induced fine-structure transitions of Hg (63P163P0) with N2 and CO. 2. Translational energy dependence”, M.Okunishi, J.Hashimoto, H.Chiba, K.Ohmori, K.Ueda, and Y.Sato, J. Phys. Chem. 103, 1742-1747 (1999). |
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“Auger electron spectra of CF3CN, CF3Cl, CF2Cl2, and CFCl3”, Y.Shimizu, K.Ueda, H.Chiba, M.Okunishi, K.Ohmori, Y.Sato, H.Suzuki, T.Ibuki, and K.Okada, Chem. Phys. 244, 439-448 (1999). |
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“Far-wing excitation studies on the quasimolecular transitions in the Hgrare-gas, simple-molecule half-collisions”, Kenji Ohmori, in Spectral Line Shapes, Vol. 10, edited by R. Herman (AIP Press, 1999), pp.352-363. |
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“Ultrafast pump/probe approach to atom-molecule half-collisions”, Kenji Ohmori, in LASERS ’98, edited by V.J.Corcoran and T.A.Goldman (STS Press, McLean VA, 1999), pp.106-115. |
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“c←X laser excitation spectrum of the Hg-Ar vdW complex”, K. Amano, K. Ohmori, Y. Kurosawa, H. Chiba, M. Okunishi, K. Ueda, Y. Sato, A. Z. Devdariani, and E. E. Nikitin, J. Chem. Phys. 108, 8110-8113 (1998). |
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“Collision induced absorption in mercuryrare-gas collisions”, T.Kurosawa, K.Ohmori, H.Chiba, M.Okunishi, K.Ueda, Y.Sato, A.Z.Devdariani, and E.E.Nikitin, J. Chem. Phys. 108, 8101-8109 (1998). |
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“Apparatus for studying decay and dissociation of core-excited molecules”, Y.Shimizu, K.Nagao, K.Ueda, M.Takahashi, H.Chiba, S.Yanagida, M.Okunishi, K.Ohmori, Y.Sato, T.Hayaishi, and K.J.Ross, J. Electr. Spectrosc. Relat. Phenom. 88-91, 1031-1036 (1998). |
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“Far-wing excitation studies on the transit regions in slow atomic collisions”, K.Ohmori and Y.Sato, in Photonic, Electronic and Atomic Collisions, edited by F. Aumayr and HP. Winter (World Scientific, 1998), pp.593-602. |
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“Absolute photoionization cross sections for the Ba ground state in the autoionization region. I. 238-218nm”, K. Maeda, M. Aymar, K. Ueda, H. Chiba, K. Ohmori, Y. Sato, J. B. West, K. J. Ross, and K. Ito, J. Phys. B: At. Mol. Opt. Phys. 30, 3159-3171 (1997). |
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“Angle-resolved photoelectron and photoion study on the shape resonance in the B 1s ionization region of BF3”, Y.Shimizu, K.Ueda, H.Chiba, K.Ohmori, M.Okunishi, Y.Sato, and T.Hayaishi, J. Chem. Phys. 107, 2415-2418 (1997). |
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“Symmetries and dissociation dynamics of F 1s core-excited states of BF3”, Y.Shimizu, K.Ueda, H.Chiba, M.Okunishi, K.Ohmori, J.B.West, Y.Sato, and T.Hayaishi, J. Chem. Phys. 107, 2419-2423 (1997). |
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“Correlation between core-hole polarization and localized bond rupture from anisotropy in the photofragmentation of F 1s excited SF6”, K.Ueda, Y.Shimizu, K.Nagao, H.Chiba, M.Okunishi, K.Ohmori, J.B.West, Y.Sato, T.Hayaishi, H.Nakamatsu, and T.Mukoyama, Phys. Rev. Lett. 79, 3371-3374 (1997). |
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“Far-wing excitation study of the reactions in the Hg-H2 collisional quasimolecules. I. Transit-state selectivity in HgH formation and three-body dissociation”, K.Ohmori, T.Takahashi, H.Chiba, K.Saito, T.Nakamura, M.Okunishi, K.Ueda, and Y.Sato, J. Chem. Phys. 105, 7464-7473 (1996). |
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“Far-wing excitation study of the reactions in the Hg-H2 collisional quasimolecules. II. Rovibrational distributions of HgH, HgD (X2+) formed from Hg-H2, D2, HD”, K.Ohmori, T.Takahashi, H.Chiba, K.Saito, T.Nakamura, M.Okunishi, K.Ueda, and Y.Sato, J. Chem. Phys. 105, 7474-7479 (1996). |
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“Far-wing excitation spectra of the Hg 6s6p3P0-6s7s3S1 inter-excited-state transitions broadened by Ar and Ne”, K.Ohmori, K.Amano, M.Okunishi, H.Chiba, K.Ueda, and Y.Sato, Chem. Lett. 765-766 (1996). |
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“Continuum absorption spectra in far wings of Hg 1S03P1 resonance line broadened by Ar”, Y.Sato, T.Nakamura, M.Okunishi, K.Ohmori, H.Chiba, and K.Ueda, Phys. Rev. A 53, 867-873 (1996). |
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“Dissociation dynamics of B 1s core-excited BF3 probed by energy-selected electron energy-selected ion coincidence and angle-resolved ion spectroscopy”, K.Ueda, K.Ohmori, M.Okunishi, H.Chiba, Y.Shimizu, Y.Sato, T.Hayaishi, E.Shigemasa, and A.Yagishita, J. Elec. Spec. Rel. Phenom. 79, 411-414 (1996). |
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“C 1s and F 1s photoabsorption and subsequent electronic decay of CH4, CH3F, CH2F2, CHF3, and CF4”, K.Ueda, Y.Shimizu, H.Chiba, M.Okunishi, K.Ohmori, Y.Sato, E.Shigemasa, and N.Kosugi, J. Elec. Spec. Rel. Phenom. 79, 441-444 (1996). |
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“Far-wing excitation study on the transit region of Hg 3P13P0 intramultiplet process in collisions with N2 and CO”, K.Ohmori, T.Kurosawa, H.Chiba, M.Okunishi, K.Ueda, Y.Sato, and E.E.Nikitin, J. Chem. Phys. 102, 7341-7350 (1995). |
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“Rydberg-valence mixing in the C 1s excited states of CH4 probed by electron spectroscopy”, K.Ueda, M.Okunishi, H.Chiba, Y.Shimizu, K.Ohmori, Y.Sato, E.Shigemasa, and N.Kosugi, Chem. Phys. Lett. 236, 311-317 (1995). |
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“Direct observation of correlation between electron emission and fragmentation into ions following B 1s excitation of the BF3 molecule”, K.Ueda, K.Ohmori, M.Okunishi, H.Chiba, Y.Shimizu, Y.Sato, T.Hayaishi, E.Shigemasa, and A.Yagishita, Phys. Rev. A 52, R1815-R1818 (1995). |
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“Rydberg and valence states in the C 1s photoabsorption and resonance Auger spectra of CH3F”, N.Kosugi, K.Ueda, Y.Shimizu, H.Chiba, M.Okunishi, K.Ohmori, Y.Sato, and E.Shigemasa, Chem. Phys. Lett. 246, 475-480 (1995). |
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“Far-wing excitation study on the fine-structure transition of Hg(3P13P0) in collisions with N2”, K.Ohmori, T.Kurosawa, H.Chiba, M.Okunishi, and Y.Sato, J. Chem. Phys. 100, 5381-5383 (1994). (in Communications) |
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“Blue satellite structure of the Ba resonance line broadened by rare gases”, T. Maeyama, H. Ito, H.Chiba, K.Ohmori, K. Ueda, and Y.Sato, J. Chem. Phys. 97, 9492-9493 (1992). |
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“Pressure dependence of the rate constant for the reaction: CH3O+NO”, K.Ohmori, K.Yamasaki, and H.Matsui, Bull. Chem. Soc. Jpn. 66, 51-56 (1993). |
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“Reaction rates of atomic oxygen(3P) with a series of alkanes at high temperatures”, A.Miyoshi, K.Ohmori, and H.Matsui, in Turbulence and molecular processes in combustion, edited by T.Takeno (Elsevier, 1993), pp. 85-99. |
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“Reaction rates of atomic oxygen with straight chain alkanes and fluoro-methanes at high temperatures”, A.Miyoshi, K.Ohmori, K.Tsuchiya, and H.Matsui, Chem. Phys. Lett. 204, 241-247 (1993). |
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“A flash photolysis study of CH4-O2 mixture behind shock waves”, K.Ohmori, M.Yoshimura, M.Koshi, and H.Matsui, Bull. Chem. Soc. Jpn. 65, 1317-1322 (1992). |
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“Examination of the chain branching steps in oxidation of CH4 and H2S via excimer laser photolysis in shock waves”, M.Yoshimura, K.Ohmori, K.Kamiya, M.Koshi, and H.Matsui, in Shock Waves, K. Takayama, Ed. (Springer-Verlag, Berlin, 1992), vol. II, pp. 887-890. |
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“Studies on the reaction of acetaldehyde and acetyl radicals with atomic hydrogen”, K.Ohmori, A.Miyoshi, and H.Matsui, J. Phys. Chem. 94, 3253-3255 (1990). |
| K. OHMORI, ” Ultrafast quantum simulation and quantum computing with ultracold atom arrays”, MIT-Harvard Center for Ultracold Atoms (CUA) Seminar, Harvard University, Cambridge, USA, 7 February 2023. |
| K. OHMORI, ” Ultrafast quantum simulation and quantum computing with ultracold atom arrays”, The Chicago Quantum Exchange(CQE) Seminar, The University of Chicago, Chicago, USA, 2 February 2023. |
| K. OHMORI, “Ultrafast quantum computer/simulator with attosecond precision”, The 4th International Symposium on Quantum Physics and Quantum Information Sciences, Beijing Academy of Quantum Information Sciences, Beijing, China, Online, 30 November 2022. |
| K. OHMORI, “Ultrafast quantum computer/simulator operating at the single-atom level”, Virtual Humboldt Colloquium “Top Global Research” and the Humboldt Network: New Frontiers of German-Japanese Scientific Cooperation, Alexander von Humboldt Foundation, Germany, Online, 18 November 2022. |
| K. OHMORI, “Ultrafast and ultracold quantum simulator/computer with attosecond precision”, ColdQuanta, Inc., Boulder, USA, Hybrid, 27 July 2022. |
| K. OHMORI, “Ultrafast and ultracold quantum simulator/computer with attosecond precision”, Special Summer 2022 Quantum Seminar Series, CUbit Quantum Initiative, University of Colorado Boulder and JILA/NIST, Boulder, USA, Hybrid, 26 July 2022. |
| K. OHMORI, “Moonshot proposal: Large-scale and high-coherence fault-tolerant quantum computer with dynamical atom arrays”, ColdQuanta, Inc., Boulder, USA, Hybrid, 25 July 2022. |
| K. OHMORI,”Ultrafast and ultracold quantum simulator/computer with attosecond precision”, The 4th Asia-Pacific Workshop on Trapped Quantum Systems(APTQS 2022) , 22 April 2022 (Online). |
| K. OHMORI,”Ultrafast and ultracold quantum simulator/computer with attosecond precision”, Quantum Simulations and Computations with Cold Atoms-2022 (QSCCA 2021) , 26 January 2022 (Online). |
| K. OHMORI (Invited Talk / Panel Discussion), “Japan’s quantum-technology testbeds,” The International Symposium on Quantum Science, US DOE Office of Science (SC) Workshop on the International Quantum Computing Testbeds, Quantum Computing Testbeds Stakeholder Workshop, US DOE Office of Science (SC), USA, 18 December 2021 (Online). |
| K. OHMORI (Invited Talk / Panel Discussion), “Quantum computers and simulators; the present status and future perspectives,” JACS in session with JACS Au and ACS Phys Chem Au for the theme of “Quantum Computing, Data Science, and Computation Evolution for Chemistry and Energy.”, American Chemical Society, USA, 14 December 2021 (Online). (Postponed to 2022 due to various reasons of the organizer, American Chemical Society JACS) |
| K. OHMORI, “Ultrafast and ultracold quantum simulator/computer with attosecond precision”, the International Symposium on Quantum Science, Technology and Innovation: QUANTUM INNOVATION 2021, 7-9 December 2021 (Online) |
| K. OHMORI, “Ultrafast and ultracold quantum simulator with attosecond precision”, The 5th International Workshop on Rydberg Atoms andMolecules, 28-31 Octorber 2021(Online) |
| K. OHMORI, “Ultrafast and Ultracold Quantum Simulator with Attosecond Precision”, IAS Center for Quantum Technologies Inaugural Workshop, 26 August 2021 (Online). |
| K. OHMORI, “Ultrafast and ultracold quantum simulator with attosecond precision,” The 15th Femtochemistry Conference (FEMTO 15), Berlin, Germany, 25-30 July 2021.(Postponed to 2023 due to Covid-19 pandemic) |
| K. OHMORI, “Ultrafast and ultracold quantum simulator with attosecond precision”, the U.S.-Japan Quantum Cooperation Workshop(Hudson Institute, USA / Cabinet Office, Japan), 1 July 2021 (Online). |
| K. OHMORI, “Ultrafast and ultracold quantum simulator with attosecond precision”, DAMOP 2021 (52nd Annual Meeting of the American Physical Society’s Division of Atomic, Molecular and Optical Physics), 31 May-4 June 2021 (Online). |
| K. OHMORI, “Ultrafast and ultracold quantum simulator with attosecond precision”, EU FET Project COPAC Symposium “Parallel Computing Quantum Devices”, 23-25 March 2021 (Online). |
| K. OHMORI, “Ultrafast quantum simulator with attosecond precision at ultracold temperatures”, Fundamental Sciences and Quantum Technologies using Atomic Systems (FSQT 2020)organized by Atomic, Molecular and Optical Physics Division Physical Research Laboratory, supported by SciRox, Science Club, GNDU, Amritsar, Punjab, India, 29 September, 2020 (Online). |
| K. OHMORI, “Ultrafast quantum simulator with attosecond precision at ultracold temperatures”, India-Japan webinar on quantum technologies organized by the Embassy of India, Tokyo, supported by the governments of India and Japan, 28 July 2020 (Online). |
| K. OHMORI, “Ultrafast many-body electron dynamics in an ultracold atomic BEC and Mott insulator lattice”, “EU-Japan bilateral meeting on Quantum Science” of “EU-USA-Japan International Symposium on Quantum Technology” and “Topical Conference on Quantum Computing 2019”, Kyoto Brighton Hotel, Kyoto, December 16-18, 2019. |
| K. OHMORI,”Ultrafast many-body electron dynamics in an ultracold atomic BEC and Mott insulator lattice”, “Annual Conference Series title: Frontiers in Synthetic Quantum Systems, 2019 Focus: Quantum Simulations in Optical Lattices and Beyond”, Tianping Hotel, Shanghai, China, December 14-15, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in an ultracold atomic BEC and Mott insulator lattice”, the Conference “Quantum Computing in Near Term”, Universität Wien, wien, Austria, October 21, 2019. |
| K. OHMORI, “International trends of quantum simulation and its future challenges”, JST CRDS, JST Tokyo Headquarters, Tokyo,Septembei 22, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, The 14th Femtochemistry Conference, Jin Jiang Hotel, Shanghai, China August 1, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, P&A AMO Seminar, Rice University, Houston, USA July 1, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, Quantum Dynamics and Spectroscopy in Condensed-Phase Materials and Bio-Systems, Telluride Science Research Center (TSRC), Telluride, USA, June 28, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, International Symposium: Highly-excited States and Non-covalent Interactions, The University of Manchester, Manchester, UK June 20, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, the 4th International Workshop on Rydberg Atoms and Molecules, Hangzhou, China, June 7, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, IAS Workshop, The Hong Kong University of Science and Technology, China, May 7, 2019. |
| K. OHMORI, “International trends of quantum simulation and its future challenges”, JST CRDS, JST Tokyo Headquarters, Tokyo, Apri 22, 2019. |
| K. OHMORI, “Ultrafast many-body electron dynamics in a strongly correlated ultracold Rydberg gas”, CQOM Colloquium, Center for Quantum Optics and Quantum Matter (CQOM), Aarhus University, Denmark, May 17, 2018. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Max Planck Institute of Quantum Optics, Garching, Germany, March 16, 2018 |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Joint Quantum Institute, Maryland, USA, March 8, 2018 |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, University of Oxford, Oxford, UK, November 20, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Max Planck Institute for the Science of Light, Erlangen, Germany, October 5, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, CUA Seminars, MIT-Harvard Center for Ultracold Atoms, Cambridge, USA, September 12, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Gordon Research Conference on “Quantm Control of Light and Matter”, Mount Holyoke College, South Hadley, MA, USA, August 6-11, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Institut d’Optique, Palaiseau, France, May 26, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, Les Houches / Telluride Workshop on “Quantum Dynamics and Spectroscopy of Functional Molecular Materials and Biological Photosystems”, Les Houches, France, May 24, 2017. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly Correlated Ultracold Rydberg Gas”, IQOQI, University of Innsbruck, Austria, May 5, 2017. |
| K. OHMORI, “Many-Body Physics: The Holy Grail of Modern Sciences and Technologies”, Invited Lecture, State Key Laboratory of Quantum Optics and Quantum Optic Devices, Shanxi University, China, November 7-11, 2016. |
| K. OHMORI, “Addressing Quantum Many-Body Dynamics by Ultrafast Coherent Control with Attosecond Precision”, CQD-IMS Collaborative Meeting “Rydberg Quantum Matter”, Heidelberg, Germany, June 9-10, 2016. |
| K. OHMORI, “Many-Body Physics: The Holy Grail of Modern Sciences and Technologies,” 1st International Symposium on Advanced Photonics (ISAP), Hamamatsu, Japan, April 12-14, 2016. |
| K. OHMORI, “Direct Observation and Control of Ultrafast Many-Body Electron Dynamics in a Strongly-Correlated Ultracold Rydberg Gas,” OIST Mini Symposium “Rydberg Atoms for Quantum Technologies”, Okinawa, Japan, March 3-5, 2016. |
| K. OHMORI, “Addressing Quantum Many-Body Dynamics by Ultrafast Coherent Control with Attosecond Precision”, CQD-IMS Collaborative Meeting “Rydberg Quantum Matter”, Heidelberg, Germany, June 9, 2016. |
| K. OHMORI, “Direct Observation of Ultrafast Many-Body Electron Dynamics in a Strongly-Correlated Ultracold Rydberg Gas”, Perspectives in Nano Information Processing: an International Conference and Workshop, Cambridge, UK, December 14-16, 2015. |
| K. OHMORI, “Direct Observation of Ultrafast Many-Body Electron Dynamics in a Strongly- Correlated Ultracold Rydberg Gas”, The 12th US-Japan Seminar on Many Body Quantum Systems, Madison, USA, September 20-24, 2015. |
| K. OHMORI, “Direct Observation of Ultrafast Quantum Many-Body Dynamics in a Strongly-Correlated Ultracold Rydberg Gas”, The 12th Femtochemistry Conference, Hamburg, Germany, July 12-17, 2015. |
| K. OHMORI, “Ultrafast Many-Body Electron Dynamics in a Strongly-Correlated Ultracold Rydberg Gas”, Gordon Research Conference on “Atomic Physics”, Newport, USA, June 14-19, 2015. |
| K. OHMORI, “Ultrafast electron dynamics beyond mean-field in a strongly-correlated ultracold Rydberg gas”, Coherence and Control in the Quantum World: Current and Future Trends, Weizmann Institute of Science, Israel, December 15-18, 2014. |
| K. OHMORI, “Ultrafast Electron Dynamics Beyond Mean-Field in a Strongly-Correlated Ultracold Rydberg Gas”, SFB Kolloquium, University of Stuttgart, Stuttgart, Germany, October 31, 2014. |
| K. OHMORI, “Exploring Quantum-Classical Boundary with Light”, Fujihara Seminar: Real-time Dynamics of Physical Phenomena and Manipulation by External Fields, Tomakomai, Hokkaido, Japan, September 23-27, 2014. |
| K. OHMORI,”Ultrafast Many-Body Dynamics in an Ultracold Rydberg Gas”, Ultracold Rydberg Physics Workshop, Granada, Spain, September 10-12, 2014. |
| K. OHMORI, “Exploring Quantum-Classical Boundary with Coherent Control”, Coherence and Control in the Quantum World: the Legacy of Moshe Shapiro, University of British Columbia, Canada, August 13-15, 2014. |
| K. OHMORI, “Exploring Quantum-Classical Boundary with Light”, Physikalisches Kolloquium of University of Heidelberg (also as Plenary Lecture at 11th Germany-Japan Science Colloquium), Heidelberg, Germany, January 17, 2014. |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Networks of Ultra-Cold Rydberg Atoms, Keble College in Oxford, UK, January 9-10, 2014 |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Laser Science XXIX, (the 29th Annual Meeting of the American Physical Society), Hilton Bonnet Creek, Florida, USA, October 6-10, 2013 |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Conference on Quantum Information and Quantum Control, Fields Institute, Toronto, Canada, Aug 12- 16, 2013. |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Gordon Research Conference on “Quantm Control of Light and Matter”, Mount Holyoke College, South Hadley, MA, USA, July 28 – August 2, 2013. |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Quantum Dynamics and Spectroscopy in Condensed-Phase Materials and Bio-Systems, TSRC, Telluride, USA, July 8-12, 2013. |
| K. OHMORI, “Spatiotemporal Quantum Engineering with Picometer and Attosecond Precision”, Strasbourg Physique Seminaires, Strasbourg University, Strasbourg, France, May 23, 2013. |
| K. OHMORI, “Spatiotemporal Quantum Engineering with Picometer and Attosecond Precision”, Atomic and laser physics seminar series, Department of Physics, University of Oxford, Oxford, UK, May 20, 2013. |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, The 11th US-Japan Joint Seminar on Quantum Electronics and Laser Spectroscopy (The US-Japan QELS-11) “Ultimate Quantum Systems of Light and Matter- Control and Applications”, Nara, Japan, April 11, 2013. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, 3rd IMS-ENSCP Joint Seminar, IMS, Okazaki, Japan, February 13, 2013. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, KITP Program “Fundamental Science and Applications of Ultra-cold Polar Molecules”, KITP UC Santa Barbara, Santa Barbara, USA, February 5, 2013. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, Physics Colloquium, University of Freiburg, Freiburg, Germany, December 3, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, ESF Research Conference in Partnership with LFUI on “Cold and Ultracold Molecules”, Universitätszentrum Obergurgl, Austria, November 22, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, Workshop on “Molecular Functional Dynamics: Fundamental to Life Activity”, IMS, Okazaki, Japan, October 26, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, International Workshop: “Horizons of Quantum Physics: from Foundations to Quantum-Enabled Technologies”, American Club Taipei, Taipei, Taiwan, October 16, 2012. |
| K. OHMORI, “Quantum simulator of quantum/classical boundary”, The ‘240’ Conference, The University of Chicago, Chicago, USA, September 14, 2012. |
| K. OHMORI, “Exploring quantum/classical boundary”, The ‘240’ Conference, The University of Chicago, Chicago, USA, September 13, 2012. |
| K. OHMORI, “Ultrafast Coherent Control of an Ultracold Rydberg Gas”, Batsheva de Rothschild Seminar on “Laser Control of Chemical Reactions: Toward Deciphering Mechanisms and Understanding the Theoretical and Experimental Limits”, Ruth-Rimmonim Hotel, Safed, Israel, September 3, 2012. |
| K. OHMORI, “Spatiotemporal quantum engineering with picometer and attosecond precision”, Special Seminar on “Theoretical Chemistry”, Institut für Chemie und Biochemie, Freie Universitaet Berlin, Berlin, Germany, June 19, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, International Conference on Superconductivity and Magnetism: ICSM 2012, Artemis Marin Princess Hotel, Kumburgaz-Istanbul, Turkey, May 4, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, IMS Japan – WIS Workshop, Weizmann Institute of Science, Rehovot, Israel, February 26, 2012. |
| K. OHMORI, “Single Molecule can Calculate 1000 Times Faster than Supercomputers”, KAIST Physics Coloquium, Daejon, Korea, February 13, 2012. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, Center for Quantum Dynamics Seminar, Universitaet Heidelberg, Heidelberg, Germany, January 19, 2012. |
| K. OHMORI, “Ultrafast Computing with a Femtosecond-Laser-Driven Molecule”, Architecture and Design of “supported” single Molecule Logic Gates and atom circuits, Barcelona, Spain, January 12-13, 2012. |
| K. OHMORI, “Single Molecule can Calculate 1000 Times Faster than Supercomputers”, International Symposium on Physics and Applications of Laser Dynamics 2011, Tainan, Taiwan, December 7, 2011. |
| K. OHMORI, “Optically Engineered Quantum States in Ultrafast and Ultracold Systems”, Meet APS Fellow Forum, National Tsing Hua University, Hsinchu, Taiwan, December 6, 2011. |
| K. OHMORI, “Attosecond Quantum Engineering”, Germany-Japan Colloquium “From the Early Universe to the Evolution of Life”, Heidelberg, Germany, December 1-3, 2011. |
| K. OHMORI, “Single Molecule can Calculate 1000 Times Faster than Supercomputers”, Frontier in Molecular Science based on Photo and Material, Paris, France, November 7-8, 2011. |
| K. OHMORI, “Ultrafast Computing with a Femtosecond-Laser-Driven Molecule”, International Workshop on Simulation and Manipulation of Quantum Systems for Information Processing (SMQS-IP), Juelich, Germany, October 17-19, 2011. |
| K. OHMORI, “Ultrafast Computing with a Femtosecond-Laser-Driven Molecule”, International Workshop “Engineering and Control of Quantum Systems”, Dresden, Germany, October 10-14, 2011. |
| K. OHMORI, “Ultrafast Computing with a Femtosecond-Laser-Driven Molecule”, International Workshop on Coherence and Decoherence at Ultracold Temperatures, Institute for Advanced Study of Technische Universitat Munchen in Garching/Munich, Germany, September 6-9, 2011. |
| K. OHMORI, “Coherent Control; Present and Future”, Gordon Research Conference on “Quantm Control of Light and Matter,” Mount Holyoke College, South Hadley, MA, USA, July 31 – August 5, 2011. |
| K. OHMORI, “Single Molecule Can Calculate 1000 Times Faster than Supercomputers”, Special Seminar at Physics Department of Oxford University, Oxford, UK, July 28, 2011. |
| K. OHMORI, “Optical Manipulation of Coherent Phonons in Superconducting YBa2Cu3O7-δ Thin Films”, Faraday Discussion 153: Coherence and Control in Chemistry, Leeds, UK, July 25-27, 2011. |
| K. OHMORI, “Single Molecule can Calculate 1000 Times Faster than Supercomputers”, 14th Korea-Japan Joint Symposium on Frontiers of Molecular Science”New Visions for Spectroscopy and Computation: Temporal and Spatial Adventures of Molecular Sciences”, Busan, Korea, July 6-8, 2011. |
| K. OHMORI, “Molecular Eigenstate-Based Information Processing”, Lorentz Center Workshop on “Molecular Logic”, Lorentz Center, Leiden, Netherland, May 30 – June 2, 2011. |
| Kenji Ohmori, “Ultrafast Fourier Transfrom with a Femtosecond-Laser-Driven Molecule”, Séminaire SYRTE, l’Observatoire de Paris, Paris, France, March 7, 2011. |
| Kenji Ohmori, “Ultrafast Fourier Transfrom with a Femtosecond-Laser-Driven Molecule”, Séminaire IPCMS, Université de Strasbourg, Strasbourg, France, March 4, 2011. |
| Kenji Ohmori, “Ultrafast Fourier Transfrom with a Femtosecond-Laser-Driven Molecule”, ERATO Macroscopic Quantum Control Conference on Ultracold Atoms and Molecules, Tokyo, Japan, January 25, 2011. |
| Kenji Ohmori, “Ultrafast Coherent Control of Ultracold Molecules”, Pacifichem 2010, Honolulu, USA, December 17, 2010. |
| Kenji Ohmori, “Simulating Molecular Wave Functions Distorted by Impulsive Electronic Interaction with an Intense Femtosecond Laser Pulse”, Pacifichem 2010, Honolulu, USA, December 16, 2010. |
| Kenji Ohmori, “Ultrafast Fourier Transfrom with a Femtosecond-Laser-Driven Molecule”, Chemistry Department Seminar Series of Temple University, Philadelphia, USA, October 21, 2010. |
| Kenji Ohmori, “Ultrafast Fourier Transfrom with a Femtosecond-Laser-Driven Molecule”, ASILS6, Peking, China, October 15, 2010. |
| Kenji Ohmori, “Coherent Control and the Quantum/Classical Boundary”, Physical Chemistry Colloquium, L u d w i g – M a x i m i l i a n s – U n i v e r s i t ä t M ü n c h e n , Munich, Germany, June 2, 2010. |
| Kenji Ohmori, “Ultrafast Fourier Transform with a Femtosecond-Laser Driven Molecule”, 6th International Workshop on Optical Control of Quantum Dynamics: Theory and Experiment, Ringberg Castle, Tegernsee, Germany, May 30 – June 2, 2010. |
| Kenji Ohmori, “Spatiotemporal Wave-Packet Engineering with Picometer and Attosecond Precision”, Center for Quantum Dynamics Seminar, U n i v e r s i t ä t Heidelberg , Heidelberg, Germany, May 28, 2010. |
| Kenji Ohmori, “Spatiotemporal Wave-Packet Engineering with Picometer and Attosecond Precision”, Molecular Physics Seminars, Fritz-Haber-Institut der Max-Planck-Gesellschaft , Berlin, Germany, May 26, 2010. |
| Kenji Ohmori, “Coherent Control and the Quantum/Classical Boundary; From Cold Molecules to Bulk Solids”, International Workshop on Coherence in Ultracold Molecular Physics, Vancouver, Canada, May 20-23, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecon Precision; From cold molecules to bulk solids”, Symposium on “Physics and Chemistry of Coherently Controlled Quantum Systems”, Inuyama, March 18-20, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecon Precision; From cold molecules to bulk solids”, The 69th Okazaki Conference on “New Frontier in Quantum Chemical Dynamics”, Okazaki, Japan, February 21-23, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecon Precision; From cold molecules to bulk solids”, LCLS-PULSE seminar series, Stanford, USA, January 11, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecon Precision; From cold molecules to bulk solids”, Ultrafast X-ray Science Laboratory (UXSL) seminar series, Berkeley, USA, January 8, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecon Precision; From cold molecules to bulk solids”, 40th Winter Colloquium on The Physics of Quantum Electronics, Snowbird, USA, January 3-7, 2010. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precision ~ From Laser-Cooled Atoms to Bulk Solid”, The 4th Winter School of Asian CORE Program “New Perspectives in Material, Photo and Theoretical Molecular Sciences”, Seoul, Korea, December 14-15, 2009. |
| Kenji Ohmori, “Exploring Quantum/Classical Boundary”, Sokendai Asian Winter School “Molecular Science – Central Role in Multidisciplinary Fields”, Okazaki, Japan, December 1-4, 2009. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precision ~ from ultracold atoms to bulk solid”, Oregon Center for Optics Annual Retreat 2009, McMinnville, USA, September 17 – 18, 2009. |
| Kenji Ohmori”, Spatiotemporal Coherent Control with Picometer and Attosecond Precision”, MIT–Harvard Center for Ultracold Atoms Special Seminar, Harvard University, Cambridge, USA, July 6, 2009. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precision”, Gordon Research Conference on “Atomic Physics”, Tilton, USA, June 28 – July 3, 2009. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precisions”, The Center for Advanced Photonics Research Laser Science Seminar Series, Temple University, Philadelphia, USA, June 26, 2009. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precisions”, The Third International Conference on the Science and Technology for Advanced Ceramics (STAC-3), Yokohama, Japan, June 16-18, 2009. |
| Kenji Ohmori, “Spatiotemporal Coherent Control with Picometer and Attosecond Precisions”, ACS 237th National Meeting, Salt Lake City, USA, March 22-26, 2009. |
| Kenji Ohmori, “Quantum Ripples in Molecules; Observation and Control”, Sokendai Asian Winter School “Molecular Sciences on Different Space-Time Scales”, Okazaki, Japan, December 11, 2008. |
| Kenji Ohmori, “Ultrafast Coherent Control of Picometric Quantum Ripples in Molecules”, 8th Symposium on Extreme Photonics “Ultrafast Meets Ultracold,” Gamagori, Japan, November 11, 2008. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, The 6th Asia Pacific Laser Symposium, Nagoya, Japan, January 30, 2008. |
| Kenji Ohmori, “Quantum Coherence in Molecules; Observation and Control”, COAST/CORAL Winter School on Advanced Laser Science, Echigo Yuzawa, Japan, January 16, 2008. |
| Kenji Ohmori, “Tailoring Picometric Quantum Carpets by Controlling Ultrafast Wave-Packet Interference”, 38th Winter Colloquium on The Physics of Quantum Electronics, Snowbird, USA, January 8, 2008. |
| Kenji Ohmori (Invited Speaker), “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, The Brijuni 2007 Conference on Laser Pulse Shaping and Coherent Control of Molecules, Brijuni, Croatia, August 26-31, 2007. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, Gordon Research Conference on “Quantum Control of Light and Matter”, Newport, USA, August 12-17, 2007. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, Workshop on Coherent Control of Ultracold Molecular Processes, Vancouver, Canada, August 1-4, 2007. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, ICPEAC XXV, Freiburg, Germany, July 25-31, 2007. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, International Symposium on Molecular Science of Ultrafast Electronic Dynamics, Sendai, Japan, May 18-19, 2007. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, 66th Okazaki Conference “Soft X-Ray Raman Spectroscopy and Related Phenomena”, Okazaki, Japan, August 17-19, 2006. |
| Kenji Ohmori, “Visualizing and Controlling Picometric Quantum Ripples in Molecules”, The 1st Canada-Japan SRO-COAST Symposium on Ultrafast Intense Laser Science, Tokyo, Japan, July 7-8, 2006. |
| Kenji Ohmori, “Observation and Control of Picometric Quantum Ripples in a Molecule”, 5th International Symposium for Ultrafast Surface Dynamics, Abashiri, Japan, May 21-25, 2006. |
| Kenji Ohmori, “Ultrahigh-Precision Coherent Control of Molecular Wave Packets”, Pacifichem 2005, Hawaii, USA, December 15-20, 2005. |
| Kenji Ohmori, “Visualizing Picometric Quantum Ripples of Ultrafast Wave-Packet Interference”, International Symposium on Ultrafast Intense Laser Science 4, Hawaii, USA, December 10-14, 2005. |
| Kenji Ohmori, “Phase Sensitive Memory in Molecular Wave Packets; READ and WRITE”, 11th Japan-Korea Joint Symposium on Frontiers in Molecular Science, Okazaki, Japan, March 15-17, 2005. |
| Kenji Ohmori, “Phase Sensitive Memory in Molecular Wave Packets; READ and WRITE”, International Seminar on Atomic Processes in Intense Laser Fields and Related Many-Body Phenomena, Hayama, Japan, January 20-23, 2005. |
| Kenji Ohmori, “High-Precision Coherent Control of Molecules”, The Fourth Asian Photochemistry Conference, Taipei, Taiwan, January 5-10, 2005. |
| Kenji Ohmori, “High-Precision Molecular Wave-Packet Interferometry”, The 24th Physical Chemistry Colloquium “Ultrafast Phenomena – Pico to Atto seconds -“, Sendai (Japan), August 2-3, 2004. |
| Kenji Ohmori, “Sub-10 Attosecond Manipulation of Quantum Phases”, The 5th Pacific Rim Conference on Lasers and Electro-Optics: CLEO/Pacific Rim 2003, Taipei, Taiwan, December 15-19, 2003. |
| Kenji Ohmori, “Molecular wave-packet interferometry with sub-10 attoseconds quantum phase manipulation”, Japan-Korea Joint Seminar on Frontiers of Advanced Molecular Science: Spectroscopy of Ultra-Resolution in Time, Space and Energy, Wako, Japan, November 19-21, 2003. |
| Kenji Ohmori, “Single Molecule Quantum Register”, International Symposium on Ultrafast Intense Laser Science 2: propagation and interaction, Quebec, Canada, September 27-29, 2003. |
| Kenji Ohmori, “Sub-10 Attosecond Manipulation of Quantum Phases”, XX International Symposium on Molecular Beams, Lisbon, Portugal, June 8-13, 2003. |
| Kenji Ohmori, “Sub-10 Attosecond Manipulation of Quantum Phases”, Fifth Asian International Seminar on Atomic and Molecular Physics: AISAMP 5, Nara, Japan, October 1-5, 2002. |
| Kenji Ohmori, “Single Molecule Quantum Memory”, International Symposium on Advanced Laser Manipulation of Molecular Systems, Sendai, Japan, September 6, 2002. |
| Kenji Ohmori, “Attosecond wavepacket engineering”, The 6th East Asian Workshop on Chemical Reactions, Seoul, Korea, March 20-24, 2002. |
| Kenji Ohmori, “Femtosecond spectroscopy of molecular dynamics and attosecond wave packet engineering”, The 5th East Asian Workshop on Chemical Reactions, Sendai, Japan, March 23-25, 2001. |
| Kenji Ohmori, “Femtosecond spectroscopy of molecular dynamics and attosecond wave packet engineering”, The 4th NIMC International Symposium on Photoreaction Control and Photofunctional Materials (PCPM2001), Tsukuba, Japan, March 14-16, 2001. |
| Kenji Ohmori, “Optical Collision approach to the ultrafast dynamics in the transition regions”, The 4th East Asian Workshop on Chemical Reactions, Kaohsiung, Taiwan, March 14-17, 2000. |
| Kenji Ohmori, “Optical Collision to Control the Transition-Region Dynamics”, Japan-U.S. Seminar “Quantum Control of Chemical Reaction Dynamics”, Honolulu, USA, December 12-15, 1999. |
| Kenji Ohmori, “Optical Collision to Open the Doorway to the Transition State”, International Workshop on Stereo Dynamics, Sendai, Japan, July 21, 1999. |
| Kenji Ohmori, “Optical Collision to Open the Doorway to the Transition State”, The 3rd East Asian Workshop on Chemical Reactions, Kyoto, Japan, March 16-19, 1999. |
| Kenji Ohmori, “Ultrafast Pump/Probe Approach to Atom-Molecule Half Collisions”, The 21st International Conference on Lasers & Applications: LASERS ’98, Tucson AZ, USA, December 7-11, 1998. |
| Kenji Ohmori, “Far-Wing Excitation Studies on the Quasimolecular Transitions in the HgRare-Gas, Simple-Molecule Half-Collisions”, 14th International Conference on Spectral Line Shapes, State College PA, USA, June 22-26, 1998. |
| Kenji Ohmori, “Far-Wing Excitation Studies on the Transit Regions in Slow Atomic Collisions”, XXth International Conference on the Physics of Electronic and Atomic Collisions, Vienna, Austria, July 23-29, 1997. |
| Kenji Ohmori, “Photoionisation of Ba Atoms Using a UV Laser Source”, International Workshop on Photoionisation ’97, Chester, England, July 16-21, 1997. |