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Akihiro Ozawa
Akihiro Ozawa
Institute for Solid State Physics (The University of Tokyo)
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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
372019
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
92023
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
62023
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
62022
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
62022
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
32024
Chiral Gauge Field in Fully Spin-Polarized Magnetic Weyl Semimetal with Magnetic Domain Walls
A Ozawa, Y Araki, K Nomura
Journal of the Physical Society of Japan 93 (9), 094704, 2024
2024
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
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
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ìíÜâÚª×â学会ò¼ 77 (10), 702-706, 2022
2022
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ìíÜâÚª×â学会Ë»æÑ概é©ó¢ 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
îÝöµ Kagome Ì«í­Í§強í¸àõ Weyl ÚâÑÑ属ªÎêó効Ù¼úþ
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ìíÜâÚª×â学会Ë»æÑ概é©ó¢ 74.1, 1294-1294, 2019
2019
îÝöµ Kagome Ì«í­Í§ªËªªª±ªë強í¸àõ Weyl ÚâÑÑ属ßÓªÈì¶ßÈ Hall 効Íý
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ìíÜâÚª×â学会Ë»æÑ概é©ó¢ 73.2, 769-769, 2018
2018
Theory of topological transport phenomena in magnetic Weyl semimetal
A Ozawa
Tohoku University, 0
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