東京大学 大学院総合文化研究科 広域科学専攻 相関基礎科学系 
鳥井研究室

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Publications

論文・解説・著書

  1. 量子エンタングル Fr 原子を用いた電子 EDM の量子センシング,
    青木貴稔, 佐藤拓海, 池田英彦, 岡本直大, 鳥井寿夫, 中村圭佑, 永瀬慎太郎, 長濱弘季, 小澤直也,
    佐藤幹, 中下輝士, 山根風樹, 松田恭幸, 酒見泰寛, 早水友洋, 大塚未来, 高峰愛子, 上野秀樹, 羽場宏光,
    田中香津生, 原田健一, 川村広和, 井上壮志, 内山愛子, 畠山温, 市川 雄一, 田中聡, 松尾由賀利,
    Rithvik Sreekantham, Bijaya Kumar Sahoo, Bindiya Arora, Anders Kastberg,
    電気学会 電子回路研究会 論文番号ECT-22-043-1-6 (2022).
  2. Electric dipole moments and the search for new physics,
    R. Alarcon, J. Alexander, V. Anastassopoulos, T. Aoki et al.,
    arXiv:2203.08103 (Contribution to Snowmass 2021)
  3. Birefringent atomic vapor laser lock in a hollow cathode lamp,
    Takumi Sato, Yusuke Hayakawa, Naohiro Okamoto, Yusuke Shimomura, Takatoshi Aoki, and Yoshio Torii,
    J. Opt. Soc. Am. B 39, 155-159 (2022).
  4. Quantum sensing of the electron electric dipole moment using ultracold entangled Fr atoms,
    T. Aoki, R. Sreekantham, B. K. Sahoo, Bindiya Arora, A. Kastberg, T. Sato, H. Ikeda, N. Okamoto, Y. Torii, T. Hayamizu, K. Nakamura, S. Nagase, M. Ohtsuka, H. Nagahama, N. Ozawa, M. Sato, T. Nakashita, K. Yamane, K. S. Tanaka, K. Harada, H. Kawamura, T. Inoue, A. Uchiyama, A. Hatakeyama, A. Takamine, H. Ueno, Y. Ichikawa, Y. Matsuda, H. Haba, and Y. Sakemi,
    Quantum Sci. Technol. 6, 044008-1-17 (2021).
  5. Analysis of an Optical Lattice Methodology for Detection of Atomic Parity Nonconservation,
    A. Kastberg, B. K. Sahoo, T. Aoki, Y. Sakemi, and B. P. Das,
    Symmetry 12, 974-1-22 (2020).
  6. 生命の根源を見つめる
    東京大学教養学部(担当:分担執筆 鳥井寿夫, 範囲:タイムマシンは可能か?ー原子時計とウラシマ効果)
    白水社 2020年5月.
  7. Relativistic coupled-cluster study of diatomic metal-alkali-metal molecules for electron electric dipole moment searches,
    A. Sunaga, M. Abe, V. S. Prasannaa, T. Aoki, and M. Hada,
    J. Phys. B 53, 015102-1-11 (2020).
  8. Optical-lattice-based method for precise measurements of atomic parity violation,
    A. Kastberg, T. Aoki, B. K. Sahoo, Y. Sakemi, and B. P. Das,
    Phys. Rev. A 100, 050101(R)-1-6 (2019).
  9. 理科年表2020
    東京天文台, 国立天文台(担当:分担執筆 鳥井寿夫, 範囲:SI基本4単位の定義改定)
    東京天文台 2019年11月.
  10. Doppler-free spectroscopy of metastable Sr atoms using a hollow cathode lamp,
    Yusuke Hayakawa, Takumi Sato, Chika Watanabe, Takatoshi Aoki, and Yoshio Torii,
    Appl. Opt. 57, 1450-1454 (2018).
  11. Parity-nonconserving interaction-induced light shifts in the 7S_1/2-6D_3/2 transition of the ultracold 210Fr atoms to probe new physics beyond the standard model,
    T. Aoki, Y. Torii et al.,
    Exploring the World with the Laser: Dedicated to Theodor Hänsch on his 75th birthday (Springer, 2018), p509-527.
  12. 標準模型を超えた新物理を探索するための原子パリティ非保存効果の精密周波数測定
    青木貴稔, 鳥井寿夫, Sahoo Bijaya Kumar, Das Bhanu Pratap, 原田健一, 早水友洋, 坂本幸祐, 川村広和, 井上壮志, 内山愛子, 伊藤沙希, 田中香津生, 伊藤正俊, 畠山温, 酒見泰寛,
    電気学会 電子回路研究会、論文番号ECT-18-060-1-6 (2018).
  13. 塩化カリウムを用いた放射線計測実習
    鳥居寛之, 関原佑奈, 黒田直史, 鳥井寿夫,
    大学の物理教育 23(3), 147-152 (2017).
  14. 液滴の魔術:ウィルソンの霧箱、ニュートンの虹
    鳥井寿夫,
    現代化学 559, 24-27 (2017).
  15. Parity-nonconserving interaction-induced light shifts in the 7S_1/2-6D_3/2 transition of the ultracold 210Fr atoms to probe new physics beyond the standard model,
    T. Aoki, Y. Torii, B. K. Sahoo, B. P. Das, K. Harada, T. Hayamizu, K. Sakamoto, H. Kawamura, T. Inoue, A. Uchiyama, S. Ito, R. Yoshioka, K. S. Tanaka, M. Itoh, A. Hatakeyama, and Y. Sakemi,
    in the topical collection of
    "Enlightening the World with the Laser" - Honoring T. W. Hänsch
    Appl. Phys. B 123, 120-1-11 (2017).
  16. Light shifts induced by nuclear spin-dependent parity-nonconserving
    transitions of ultracold Fr for detection of nuclear anapole moment
    T. Aoki, Y. Torii, B. K. Sahoo, B. P. Das, K. Harada, T. Hayamizu, K. Sakamoto, H. Kawamura, T. Inoue, A. Uchiyama, S. Ito, R. Yoshioka, K. Tanaka, M. Itoh, A. Hatakeyama, and Y. Sakemi,
    Asian J. Phys. 25, 1247-1258 (2016).
  17. 精密周波数測定によるアナポールモーメントの検出方法
    青木貴稔, 鳥井寿夫, Sahoo Bijaya Kumar, Das Bhanu Pratap, 原田健一, 早水友洋, 坂本幸祐, 川村広和, 井上壮志, 内山愛子, 伊藤沙希, 田中香津生, 伊藤正俊, 畠山温, 酒見泰寛,
    電気学会 電子回路研究会、論文番号ECT-16-067-1-4 (2016).
  18. Enhanced spin-dependent parity-nonconservation effect in the 7s 2S1/2 → 6d 2D5/2 transition in Fr: A possibility for unambiguous detection of the nuclear anapole moment,
    B. K. Sahoo, T. Aoki, B. P. Das, and Y. Sakemi,
    Phys. Rev. A 93, 032520-1-6 (2016).
  19. ボース・アインシュタイン凝縮
    鳥井寿夫
    数理科学2014年2月号.
  20. Photoionization loss in simultaneous magneto-optical trapping of Rb and Sr
    Takatoshi Aoki, Yuki Yamanaka, Makoto Takeuchi, Yoshio Torii, and Yasuhiro Sakemi
    Phys. Rev. A 87, 063426 (2013).
  21. A simplified 461-nm laser system using blue laser diodes and a hollow cathode lamp for laser cooling of Sr
    Yosuke Shimada, Yuko Chida, Nozomi Ohtsubo, Takatoshi Aoki, Makoto Takeuchi, Takahiro Kuga, and Yoshio Torii
    Rev. Sci. Instrum. 84, 063101 (2013).
  22. Laser-phase and frequency stabilization using atomic coherence
    Yoshio Torii, Hideyasu Tashiro, Nozomi Ohtsubo, and Takatoshi Aoki
    Phys. Rev. A 86, 033805 (2012).
  23. Buffer gas-assisted polarization spectroscopy of 6Li
    Nozomi Ohtsubo, Takatoshi Aoki, and Yoshio Torii,
    Opt. Lett. 37, 2865 (2012).
  24. A 461 nm laser system and hollow-cathode lamp spectroscopy for magneto-optical trap of Sr atoms,
    Takatoshi Aoki, Kotaro Umezawa, Yuki Yamanaka, Naotomo Takemura, Yasuhiro Sakemi, and Yoshio Torii,
    J. Phys. Soc. Jap. 81 (2012) 034401.
  25. Laser cooling of 6Li atoms towards the realization of alkali and alkali-earth mixtures
    Yoshio Torii, Nozomi Otsubo, Daisuke Ikoma, Emiko Inoue, and Takatoshi Aoki,
    in Proceedings of 5th International Workshop on Fundamental Physics Using Atoms 2011, edited by N. Sasao (Okayama, 2012), p. 121-123.
  26. Ultracold Sr atoms and FrSr molecules toward the search for an electron-EDM
    T. Aoki, Y. Yamanaka, Y. Torii, K. Harada, A. Oikawa, T. Hayamizu, S. Ezure, M. Itoh, T. Furukawa, H. P. Yoshida, H. Kawamura, T. Sato, T. Kato, S. Liu, H. S. Nataraj, Y. Sakemi, M. Abe, G. Gopakumar, M. Hada, and M. Kajita,
    in Proceedings of 5th International Workshop on Fundamental Physics Using Atoms 2011, edited by N. Sasao (Okayama, 2012), p. 118-120.
  27. Toward search for an electron-EDM: Proposal using ultracold Fr-Sr molecules
    Takatoshi Aoki, Kotaro Umezawa, Yoshio Torii and Yasuhiro Sakemi,
    in Proceedings of 4th International Workshop on Fundamental Physics Using Atoms 2010, edited by N. Sasao (Osaka, 2011), p. 101-103.
  28. Precise intensity correlation measurement for atomic resonance fluorescence from optical molasses,
    Kazuyuki Nakayama, Yutaka Yoshikawa, Hisatoshi Matsumoto, Yoshio Torii, and Takahiro Kuga,
    Opt. Express 18, 6604-6612 (2010).
  29. Long storage time of collective coherence in an optically trapped Bose-Einstein condensate,
    Yutaka Yoshikawa, Kazuyuki Nakayama, Yoshio Torii, and Takahiro Kuga,
    Phys. Rev. A 79, 025601 (2009).
  30. レーザー冷却とボース・アインシュタイン凝縮
    鳥井寿夫
    「基礎からの量子光学」第3部9章(オプトロニクス社、2009).
  31. Strong radiation force induced in two-dimensional photonic crystal slab cavities,
    Hideaki Taniyama, Masaya Notomi, Eiichi Kuramochi, Takayuki Yamamoto, Yutaka Yoshikawa, Yoshio Torii, and Takahiro Kuga,
    Phys. Rev. B 78, 165129-1-7 (2008).
  32. Design of a high-Q air-slot cavity based on a width-modulated line-defect in a photonic crystal slab,
    T. Yamamoto, M. Notomi, H. Taniyama, E. Kuramochi, Y. Yoshikawa, Y. Torii, and T. Kuga,
    Opt. Express 16, 13809-13817 (2008).
  33. レーザー冷却とボース・アインシュタイン凝縮
    鳥井寿夫
    月刊オプトロニクス2008年 1月号228-239.
  34. Holographic Storage of Multiple Coherence Gratings in a Bose-Einstein Condensate,
    Yutaka Yoshikawa, Kazuyuki Nakayama, Yoshio Torii, and Takahiro Kuga,
    Phys. Rev. Lett. 99, 220407 (2007).
  35. Large atom number Bose-Einstein condensate machines
    Erik W. Streed, Ananth P. Chikkatur, Todd L. Gustavson, Micah Boyd, Yoshio Torii, Dominik Schneble, Gretchen K. Campbell, David E. Pritchard, and Wolfgang Ketterle,
    Rev. Sci. Instrum. 77, 023106 (2006).
  36. Superradiant Light Scattering from Thermal Atomic Vapors,
    Yutaka Yoshikawa, Yoshio Torii, and Takahiro Kuga,
    Phys. Rev. Lett. 94, 083602 (2005).
  37. Observation of superradiant Raman scattering in a Bose-Einstein condensate,
    Yutaka Yoshikawa, Toshiaki Sugiura, Yoshio Torii, and Takahiro Kuga,
    Phys. Rev. A 69, 041603 (2004).
  38. ボース-アインシュタイン凝縮
    久我隆弘・鳥井寿夫
    現代物理学の歴史II(朝倉物理学大系21 大系編集委員会編)484-496(朝倉書店、2004).
  39. Frequency stabilization of a laser diode with use of light-induced birefringence in an atomic vapor,
    Yutaka Yoshikawa, Takeshi Umeki, Takuro Mukae, Yoshio Torii, and Takahiro Kuga,
    Appl. Opt. 42, 6645 (2003).
  40. The Onset of Matter-Wave Amplification in a Superradiant Bose-Einstein Condensate,
    Dominik Schneble, Yoshio Torii, Micah Boyd, Erik W. Streed, David E. Pritchard, and Wolfgang Ketterle,
    Science 300, 475 (2003).