Sledovat
Akihiro Ozawa
Akihiro Ozawa
Institute for Solid State Physics (The University of Tokyo)
E-mailová adresa ověřena na: issp.u-tokyo.ac.jp - Domovská stránka
Název
Citace
Citace
Rok
Two-orbital effective model for magnetic Weyl semimetal in Kagome-lattice shandite
A Ozawa, K Nomura
journal of the physical society of japan 88 (12), 123703, 2019
342019
Self-consistent analysis of doping effect for magnetic ordering in stacked-kagome Weyl system
A Ozawa, K Nomura
Physical Review Materials 6 (2), 024202, 2022
72022
Intercorrelated anomalous Hall and spin Hall effect in kagome-lattice -based shandite films
YC Lau, J Ikeda, K Fujiwara, A Ozawa, J Zheng, T Seki, K Nomura, L Du, ...
Physical Review B 108 (6), 064429, 2023
42023
Enhancement of spin-charge conversion efficiency for across transition from paramagnetic to ferromagnetic phase
T Seki, YC Lau, J Ikeda, K Fujiwara, A Ozawa, S Iihama, K Nomura, ...
Physical Review Research 5 (1), 013222, 2023
42023
Magnetic Orderings from Spin–Orbit Coupled Electrons on Kagome Lattice
J Watanabe, Y Araki, K Kobayashi, A Ozawa, K Nomura
journal of the physical society of japan 91 (8), 083702, 2022
42022
Effective Model Analysis of Intrinsic Spin Hall Effect with Magnetism in the Stacked Kagome Weyl Semimetal
A Ozawa, K Kobayashi, K Nomura
Physical Review Applied 21 (1), 014041, 2024
22024
Effective Tight-Binding Model of Compensated Ferrimagnetic Weyl Semimetal with Spontaneous Orbital Magnetization
T Meguro, A Ozawa, K Kobayashi, K Nomura
Journal of the Physical Society of Japan 93 (3), 034703, 2024
2024
Chiral gauge field in fully-spin polarized Weyl semimetal with magnetic domain walls
A Ozawa, Y Araki, K Nomura
arXiv preprint arXiv:2403.09535, 2024
2024
Theory of chiral gauge field in fully spin-polarized magnetic Weyl semimetal Co3Sn2S2
A Ozawa, Y Araki, K Nomura
Bulletin of the American Physical Society, 2024
2024
Effective tight-binding model of compensated ferrimagnetic Weyl semimetal and analysis of spin-orbit torque
T Meguro, A Ozawa, K Kobayashi, K Nomura
Bulletin of the American Physical Society, 2024
2024
High Spin-Charge Conversion Efficiency of Co3Sn2S2 Promoted by Transition from Paramagnetic to Ferromagnetic Phase
T Seki, YC Lau, J Ikeda, K Fujiwara, A Ozawa, S Iihama, K Nomura, ...
2023 IEEE International Magnetic Conference-Short Papers (INTERMAG Short …, 2023
2023
Theory of spin/charge transport and magnetic orderings in stacked kagome-lattice Weyl semimetal
A Ozawa, K Nomura
APS March Meeting Abstracts 2023, A43. 005, 2023
2023
JPSJ の最近の注目論文から: 6 月の編集委員会より
宮下精二
日本物理学会誌 77 (10), 702-706, 2022
2022
ドープされた磁性ワイル半金属における磁気秩序およびスピン電荷輸送の理論
小沢耀弘野村健太郎
日本物理学会講演概要集 76 (2), 23aD2-3, 2021
2021
Ferromagnetic Weyl semimetal phase and anomalous Hall effect in stacked Kagome lattice
A Ozawa, K Nomura
APS March Meeting Abstracts 2019, Y01. 009, 2019
2019
積層 Kagome 格子系強磁性 Weyl 半金属の有効模型
小沢耀弘, 野村健太郎
日本物理学会講演概要集 74.1, 1294-1294, 2019
2019
積層 Kagome 格子系における強磁性 Weyl 半金属相と異常 Hall 効果
小沢耀弘, 野村健太郎
日本物理学会講演概要集 73.2, 769-769, 2018
2018
Theory of topological transport phenomena in magnetic Weyl semimetal
A Ozawa
Tohoku University, 0
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Články 1–18