Publications
原著論文(査読付き)
[14] “Designing nontrivial one-dimensional Floquet topological phases using a spin-1/2 double-kicked rotor.”
Y. Koyama, K. Fujimoto, S. Nakajima, and Y. Kawaguchi
Phys. Rev. Research 5, 043167 (2023), (arXiv)
[13] “Competition and interplay between topology and quasi-periodic disorder in Thouless pumping of ultracold atoms.”
S. Nakajima, N. Takei, K. Sakuma, Y. Kuno, P. Marra, and Y. Takahashi
Nature Physics 17, 844-849 (2021), (arXiv)
[12] “Current-feedback-stabilized laser system for quantum simulation experiments using Yb clock transition at 578 nm.”
Y. Takata, S. Nakajima, J. Kobayashi, K. Ono, Y. Amano, and Y. Takahashi
Review of Scientific Instruments 90, 083002 (2019), (arXiv)
[11] “Dissipative Bose-Hubbard system with intrinsic two-body loss.”
T. Tomita, S. Nakajima, Y. Takasu, and Y. Takahashi
Physical Review A 99, 031601(R) (2019) (arXiv)
[10] “Observation of the Mott Insulator to Superfluid Crossover of a Driven-Dissipative Bose-Hubbard System.”
T. Tomita, S. Nakajima, I. Danshita, Y. Takasu, Y. Takahashi
Science Advances 3, e1701513 (2017) (arXiv)
[9] “Scanning Gate Microscope for Cold Atomic Gases.”
S. Hausler, S. Nakajima, M. Lebrat, D. Husmann, S. Krinner, T. Esslinger, and J-P. Brantut
Physical Review Letters 119, 030403 (2017) (arXiv)
Featured in Physics Focus and PRL Editors' Suggestion
[8] “Topological Thouless pumping of ultracold fermions.”
S. Nakajima, T. Tomita, S. Taie, T. Ichinose, H. Ozawa, L. Wang, M. Troyer and Y. Takahashi
Nature Physics 12, 296 (2016) (arXiv)
Featured in Nature Physics News & Views
[7] “Coherent driving and freezing of bosonic matter wave in an optical Lieb lattice”
S. Taie, H. Ozawa, T. Ichinose, T. Nishio, S. Nakajima and Y. Takahashi
Science Advances 1, e1500854 (2015) (arXiv)
[6] “A Three-Dimensional Optical Lattice of Ytterbium and Lithium Atomic Gas Mixture.”
H. Hara, H. Konishi, S. Nakajima, Y. Takasu and Y. Takahashi
Journal of the Physical Society of Japan 83, 014003 (2014) (arXiv)
[5] “Measurement of an Efimov Trimer Binding Energy in a Three-Component Mixture of 6Li.”
S. Nakajima, M. Horikoshi, T. Mukaiyama, P. Naidon and M. Ueda
Physical Review Letters 106, 143201 (2011) (arXiv)
[4] “Non-universal Efimov Atom-Dimer Resonances in a Three-Component Mixture of 6Li.”
S. Nakajima, M. Horikoshi, T. Mukaiyama, P. Naidon and M. Ueda
Physical Review Letters 105, 023201 (2010) (arXiv)
[3] “Measurement of Universal Thermodynamic Functions for a Unitary Fermi Gas.”
M. Horikoshi, S. Nakajima, M. Ueda and T. Mukaiyama
[2] “Critical Temperature and Condensate Fraction of a Fermion Pair Condensate.”
Y. Inada, M. Horikoshi, S. Nakajima, M. Gonokami, M. Ueda, and T. Mukaiyama
Physical Review Letters 101, 180406 (2008) (arXiv)
[1] “Collisional Properties of p-Wave Feshbach Molecules.”
Y. Inada, M. Horikoshi, S. Nakajima, M. Gonokami, M. Ueda, and T. Mukaiyama
arXiv(投稿中)
[15]
総説・解説
「冷却原子と量子シミュレーション-量子多体系の新しいプラットフォーム-」
中島秀太, 高橋義朗, サイエンス社, 数理科学 61 (10), pp.61-67, (2023年10月).
「冷却原子系を用いた量子シミュレーション・量子コンピュータ」
中島秀太, 富田隆文, 技術情報協会, 量子技術の実用化と研究開発業務への導入方法, pp.391-406, (2023年1月). 【担当範囲PDF原稿】
「冷却原子系を用いた量子シミュレーション実験」(第66回物性若手夏の学校 集中ゼミ 講義ノート)
中島秀太, 物性研究電子版, vol.10 (1), 101212, (2022年3月).
「冷却原子を用いたトポロジカル量子ポンプ」
中島秀太, 丸善, パリティ, vol.32 (12), pp.44-48, (2017年12月).
「冷却原子を用いた量子シミュレーション」
中島秀太, 高橋義朗, アグネ技術センター, 固体物理 48 (11), pp.679-687, (2013).
研究と関係ないもの
「1円玉飛ばし機の製作」
藤本直明, 中島秀太, CQ出版社,エレキジャック, vol.12, pp.20-25 (2009).