Rchr
J-GLOBAL ID:201101087265639709   Update date: Sep. 25, 2024

Saito Shiro

Saito Shiro
Affiliation and department:
Nippon Telegraph and Telephone Corporation

About Nippon Telegraph and Telephone Corporation


Job title: Group Leader, Distinguished Researcher
Homepage URL  (1): http://kaken.nii.ac.jp/ja/r/90393777
Research field  (2): Nanostructure physics ,  Nanostructure chemistry
Research keywords  (13): 量子情報処理プロジェクト ,  超精密計測 ,  メゾスコピック系 ,  人工原子 ,  量子エレクトロニクス ,  Lorentz力 ,  ジョセフソン量子回路 ,  超伝導LC回路 ,  ナノメカニカル共振器 ,  微小共振器 ,  超伝導量子ビット ,  cavity QED ,  circuit QED
Research theme for competitive and other funds  (4):
  • 2015 - 2019 Creation of rare earth doped non-magnetic crystals fro quantum applications
  • 2013 - 2018 Quantum Physics with Macroscopic Quantum Systems
  • 2010 - 2012 Research on Quantum Memory using Superconducting Artificial Atoms
  • 2006 - 2009 Quantum Physics using Superconducting Artificial Atoms
Papers (50):
  • Hiraku Toida, Takuya Ohrai, Yuichiro Matsuzaki, Kosuke Kakuyanagi, Shiro Saito. Control of the transition frequency of a superconducting flux qubit by longitudinal coupling to the photon number degree of freedom in a resonator. PHYSICAL REVIEW B. 2020. 102. 9. 1-7
  • Leonid Abdurakhimov, Imran Mahboob, Hiraku Toida, Kosuke Kakuyanagi, Yuichiro Matsuzaki, Shiro Saito. Driven-state relaxation of a coupled qubit-defect system in spin-locking measurements. PHYSICAL REVIEW B. 2020. 102. 10. 1-5
  • Ivan Iakoupov, Yuichiro Matsuzaki, William J. Munro, Shiro Saito. Sequential nonabsorbing microwave single-photon detector. Physical Review Research. 2020. 2. 3. 1-6
  • Rangga P. Budoyo, Kosuke Kakuyanagi, Hiraku Toida, Yuichiro Matsuzaki, Shiro Saito. Electron spin resonance with up to 20 spin sensitivity measured using a superconducting flux qubit. APPLIED PHYSICS LETTERS. 2020. 116. 19. 1-5
  • Koichiro Miyanishi, Yuichiro Matsuzaki, Hiraku Toida, Kosuke Kakuyanagi, Makoto Negoro, Masahiro Kitagawa, Shiro Saito. Architecture to achieve nuclear magnetic resonance spectroscopy with a superconducting flux qubit. PHYSICAL REVIEW A. 2020. 101. 5. 1-14
more...
MISC (8):
  • Toida Hiraku, Matsuzaki Yuichiro, Kakuyanagi Kosuke, Nemoto Kae, Munro William J, Yamaguchi Hiroshi, Saito Shiro. Micrometer-Scale Electron Paramagnetic Resonance Spectroscopy Using a Superconducting Flux Qubit. Meeting Abstracts of the Physical Society of Japan. 2016. 71. 0. 476-476
  • Toida H, Matsuzaki Y, Kakuyanagi K, Nemoto K, W. J. Munro, Yamaguchi H, Saito S. 16aPS-114 ESR spectroscopy using a SQUID magnetometer. Meeting Abstracts of the Physical Society of Japan. 2015. 70. 0. 788-788
  • Endo S, Matsuzaki Y, Munro W.J, Saito Shiro. 16pAC-6 Spin Amplification with Inhomogeneous Broadening. Meeting Abstracts of the Physical Society of Japan. 2015. 70. 0. 469-469
  • Matsuzaki Y, Zhu X, Kakuyanagi K, Toida H, Shimooka T, Mizuochi N, Nemoto K, Semba K, Munro W. J, Yamaguchi H, et al. 24aAN-6 Improving the coherence time of a quantum system via a coupling with an unstable system. Meeting Abstracts of the Physical Society of Japan. 2015. 70. 0. 753-753
  • Matsuzaki Y, Kakuyanagi K, Lambert N, Ishida N, Toida H, Munro W. J, Semba K, Yamaguchi H, Saito S. 18aAC-1 Towards the realization of ultrastrong coupling between superconducting flux qubits and a microwave cavity (Theory). Meeting Abstracts of the Physical Society of Japan. 2015. 70. 0. 534-534
more...
Work history (4):
  • 2017 - 現在 日本電信電話株式会社 NTT物性科学基礎研究所 グループリーダ
  • 2012 - 現在 Tokyo University of Science
  • 2005 - 2006 デルフト工科大学 客員研究員
  • 2000 - 日本電信電話株式会社 NTT物性科学基礎研究所
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