研究概要

主要論文

• 1. Z Gong, R Hamazaki, M Ueda.:
  "Discrete Time-Crystalline Order in Cavity and Circuit QED Systems"
  Physical Review Letters 120 (4), 040404 (2018).
• 2. Z Gong, Y Ashida, K Kawabata, K Takasan, S Higashikawa, M Ueda.:
  "Topological Phases of Non-Hermitian Systems"
  Physical Review X 8, 031079 (2018) [selected as PRX-Ten Years After].
• 3. K Kawabata, S Higashikawa, Z Gong, Y Ashida, M Ueda.:
  "Topological unification of time-reversal and particle-hole symmetries in non-Hermitian physics"
  Nature Communications 10 (1), 1-7 (2019).
• 4. K Kawabata, K Shiozaki, M Ueda, and M Sato.:
  "Symmetry and topology in non-Hermitian physics"
  Physical Review X 9, 041015 (2019) [selected as PRX-Ten Years After].
• 5. M. Ueda.:
  "Quantum equilibration, thermalization and prethermalization in ultracold atoms"
  Nature Review Physics 2 (12) 669-681 (2020).
• 6. N Matsumoto, K Kawabata, Y Ashida, S Furukawa, and M Ueda.:
  "Continuous phase transition without gap closing in non-Hermitian quantum many-body systems"
  Physical Review Letters 125 (26), 260601 (2020).
• 7. S. Sugimoto, R. Hamazaki, and M. Ueda.:
  "Test of the eigenstate thermalization hypothesis based on local random matrix theory"
  Physical Review Letters 126 (12), 120602 (2021).
• 8. Y Ashida, Z Gong, and M Ueda.:
  "Non-hermitian physics"
  Advances in Physics 69 (3), 249-435 (2021).
• 9. S Sugimoto, R Hamazaki, and M Ueda.:
  "Eigenstate thermalization in long-range interacting systems"
  Physical Review Letters 129 (3), 030602 (2022).
• 10. L Dabelow, and M Ueda.:
  "Three learning stages and accuracy-efficiency tradeoff of restricted Boltzmann machines"
  Nature communications 13 (1), 1-11 (2022) [selected as Editors’ Highlight].

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