Author

Sato M

Yukawa Institute for Theoretical Physics, Kyoto University - Cited by 13,527 - quantum field theory - condensed matter physics

Biography

Sato M is currently working at the Department of Pharmaceutical Sciences, Tohoku University Hospital, which is located in Sendai, Japan his area of specialization is in Internal Pharmaceutical Science.
Title
Cited by
Year
Topological superconductors: a review
M Sato, Y AndoReports on Progress in Physics 80 (7), 076501, 2017201
1275
2017
Symmetry and topology in non-Hermitian physics
K Kawabata, K Shiozaki, M Ueda, M SatoPhysical Review X 9 (4), 041015, 2019201
896
2019
Topological origin of non-Hermitian skin effects
N Okuma, K Kawabata, K Shiozaki, M SatoPhysical review letters 124 (8), 086801, 2020202
608
2020
Classification of exceptional points and non-Hermitian topological semimetals
K Kawabata, T Bessho, M SatoPhysical review letters 123 (6), 066405, 2019201
269
2019
Multiple topological states in iron-based superconductors
P Zhang, Z Wang, X Wu, K Yaji, Y Ishida, Y Kohama, G Dai, Y Sun, ...Nature Physics 15 (1), 41-47, 2019201
188
2019
Higher-order non-Hermitian skin effect
K Kawabata, M Sato, K ShiozakiPhysical Review B 102 (20), 205118, 2020202
158
2020
Superconductivity in the antiperovskite Dirac-metal oxide Sr3−xSnO
M Oudah, A Ikeda, JN Hausmann, S Yonezawa, T Fukumoto, ...Nature communications 7 (1), 13617, 2016201
125
2016
Topological crystalline materials: General formulation, module structure, and wallpaper groups
K Shiozaki, M Sato, K GomiPhysical Review B 95 (23), 235425, 2017201
122
2017
Non-Bloch band theory of non-Hermitian Hamiltonians in the symplectic class
K Kawabata, N Okuma, M SatoPhysical Review B 101 (19), 195147, 2020202
106
2020
Topological phase transition driven by infinitesimal instability: Majorana fermions in non-hermitian spintronics
N Okuma, M SatoPhysical review letters 123 (9), 097701, 2019201
103
2019
Topologically stable gapless phases in nonsymmorphic superconductors
S Kobayashi, Y Yanase, M SatoPhysical Review B 94 (13), 134512, 2016201
58
2016
Quantum anomaly, non-Hermitian skin effects, and entanglement entropy in open systems
N Okuma, M SatoPhysical Review B 103 (8), 085428, 2021202
58
2021
Topological Crystalline Materials of Electrons: Antiperovskites, Dirac Points, and High Winding Topological Superconductivity
T Kawakami, T Okamura, S Kobayashi, M SatoPhysical Review X 8 (4), 041026, 2018201
54
2018
Non-hermitian skin effects in hermitian correlated or disordered systems: Quantities sensitive or insensitive to boundary effects and pseudo-quantum-number
N Okuma, M SatoPhysical Review Letters 126 (17), 176601, 2021202
52
2021
Topological classification under nonmagnetic and magnetic point group symmetry: Application of real-space Atiyah-Hirzebruch spectral sequence to higher-order topology
N Okuma, M Sato, K ShiozakiPhysical Review B 99 (8), 085127, 2019201
52
2019
Atiyah-hirzebruch spectral sequence in band topology: General formalism and topological invariants for 230 space groups
K Shiozaki, M Sato, K GomiPhysical Review B 106 (16), 165103, 2022202
48
2022
Time-reversal invariant superconductivity of revealed by Josephson effects
S Kashiwaya, K Saitoh, H Kashiwaya, M Koyanagi, M Sato, K Yada, ...Physical Review B 100 (9), 094530, 2019201
46
2019
Non-hermitian topological phenomena: A review
N Okuma, M SatoAnnual Review of Condensed Matter Physics 14, 83-107, 2023202
44
2023
Hermitian zero modes protected by nonnormality: Application of pseudospectra
N Okuma, M SatoPhysical Review B 102 (1), 014203, 2020202
34
2020
Edge states of hydrogen terminated monolayer materials: silicene, germanene and stanene ribbons
A Hattori, S Tanaya, K Yada, M Araidai, M Sato, Y Hatsugai, K Shiraishi, ...Journal of Physics: Condensed Matter 29 (11), 115302, 2017201
32
2017

Referred From: https://scholar.google.com/citations?user=fl30hAgAAAAJ&hl=th

Cited by
Citations 13527
h-index 54
i10-index 103
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