Search research articles
Contact Us
Filters
Showing results (1-10 of 13) with videos related to
Page
of 2
Sort By:
Physical Review Letters
|
January 15, 2011
Time-of-flight imaging method to observe signatures of antiferromagnetically ordered states of fermionic atoms in an optical lattice
Kensuke Inaba, Makoto Yamashita
Physical Review. E
|
September 19, 2023
Detecting partial synchrony in a complex oscillatory network using pseudovortices
Yasuhiro Yamada, Kensuke Inaba
Physical Review Letters
|
September 26, 2012
Superfluid state of repulsively interacting three-component fermionic atoms in optical lattices
Kensuke Inaba, Sei-ichiro Suga
Physical Review Letters
|
April 8, 2014
High-fidelity cluster state generation for ultracold atoms in an optical lattice
Kensuke Inaba, Yuuki Tokunaga, Kiyoshi Tamaki, et al.
Nature Communications
|
April 21, 2016
Laser spectroscopic probing of coexisting superfluid and insulating states of an atomic Bose-Hubbard system
Shinya Kato, Kensuke Inaba, Seiji Sugawa, et al.
Optics Letters
|
November 1, 2023
10-GHz-clock time-multiplexed non-degenerate optical parametric oscillator network with a variable planar lightwave circuit interferometer
Yuya Yonezu, Kensuke Inaba, Yasuhiro Yamada, et al.
Nature Communications
|
November 28, 2018
Understanding dynamics of coherent Ising machines through simulation of large-scale 2D Ising models
Fabian Böhm, Takahiro Inagaki, Kensuke Inaba, et al.
Metallomics : Integrated Biometal Science
|
May 4, 2026
Speciation-dependent intracellular reduction and nanostructure formation of selenium and tellurium in unicellular algae
Kohei Odaka, Kensuke Inaba, Yugo Takeuchi, et al.
Science Advances
|
February 14, 2025
Finding independent sets in large-scale graphs with a coherent Ising machine
Hiroki Takesue, Kensuke Inaba, Toshimori Honjo, et al.
Optics Express
|
December 31, 2020
Continuous and long-term stabilization of degenerate optical parametric oscillators for large-scale optical hybrid computers
Takuya Ikuta, Takahiro Inagaki, Kensuke Inaba, et al.
Page
of 2
Search research articles
Search
Showing results (1-10 of 13) with videos related to
Sort By:
Page
of 2
Physical Review Letters
|
January 15, 2011
Time-of-flight imaging method to observe signatures of antiferromagnetically ordered states of fermionic atoms in an optical lattice
Kensuke Inaba, Makoto Yamashita
Physical Review. E
|
September 19, 2023
Detecting partial synchrony in a complex oscillatory network using pseudovortices
Yasuhiro Yamada, Kensuke Inaba
Physical Review Letters
|
September 26, 2012
Superfluid state of repulsively interacting three-component fermionic atoms in optical lattices
Kensuke Inaba, Sei-ichiro Suga
Physical Review Letters
|
April 8, 2014
High-fidelity cluster state generation for ultracold atoms in an optical lattice
Kensuke Inaba, Yuuki Tokunaga, Kiyoshi Tamaki, et al.
Nature Communications
|
April 21, 2016
Laser spectroscopic probing of coexisting superfluid and insulating states of an atomic Bose-Hubbard system
Shinya Kato, Kensuke Inaba, Seiji Sugawa, et al.
Optics Letters
|
November 1, 2023
10-GHz-clock time-multiplexed non-degenerate optical parametric oscillator network with a variable planar lightwave circuit interferometer
Yuya Yonezu, Kensuke Inaba, Yasuhiro Yamada, et al.
Nature Communications
|
November 28, 2018
Understanding dynamics of coherent Ising machines through simulation of large-scale 2D Ising models
Fabian Böhm, Takahiro Inagaki, Kensuke Inaba, et al.
Metallomics : Integrated Biometal Science
|
May 4, 2026
Speciation-dependent intracellular reduction and nanostructure formation of selenium and tellurium in unicellular algae
Kohei Odaka, Kensuke Inaba, Yugo Takeuchi, et al.
Science Advances
|
February 14, 2025
Finding independent sets in large-scale graphs with a coherent Ising machine
Hiroki Takesue, Kensuke Inaba, Toshimori Honjo, et al.
Optics Express
|
December 31, 2020
Continuous and long-term stabilization of degenerate optical parametric oscillators for large-scale optical hybrid computers
Takuya Ikuta, Takahiro Inagaki, Kensuke Inaba, et al.
Page
of 2