Matsuura Hiroyasu

マツウラヒロヤス | Matsuura Hiroyasu

Affiliation and department：
Homepage URL (1)： https://sites.google.com/hosi.phys.s.u-tokyo.ac.jp/homepage

Research field (1)： Magnetism, superconductivity, and strongly correlated systems

Research keywords (5)： Chiral Magnet , Thermoelectric material , Orbital Magnetism , Kondo effect , Strongly correlated electron system

Papers (36)：

Hiroyasu Matsuura, Hidekazu Mukuda, Kazumasa Miyake. Valence skipping phenomena, charge Kondo effect, and superconductivity. AAPPS Bulletin. 2022. 32. 1
Tomonari Mizoguchi, Hiroyasu Matsuura, Masao Ogata. Thermoelectric transport of type-I, II, and III massless Dirac fermions in a two-dimensional lattice model. Physical Review B. 2022. 105. 20. 205203-1-205203-11
Masashi Hosoi, Ikuma Tateishi, Hiroyasu Matsuura, Masao Ogata. Thin films of topological nodal line semimetals as a candidate for efficient thermoelectric converters. Physical Review B. 2022. 105. 8
Hiroyasu Matsuura, Masao Ogata, Takao Mori, Ernst Bauer. Theory of huge thermoelectric effect based on a magnon drag mechanism: Application to thin-film Heusler alloy. PHYSICAL REVIEW B. 2021. 104. 21
Shinta Takarada, Masao Ogata, Hiroyasu Matsuura. Theory of thermal conductivity of excitonic insulators. Physical Review B. 2021. 104. 16

ｍore...

MISC (32)：

Seebeck effect due to phonon drag : clarification of beyond Boltzmann. 2020. 55. 7. 325-335
Kazumasa Miyake, Hiroyasu Matsuura. Theory for Anomalous NMR Response in Pb_{1-x}Tl_{x}Te on Charge Kondo Effect. 2018
Masashi Hosoi, Tomonari Mizoguchi, Taichi Hinokihara, Hiroyasu Matsuura, Masao Ogata. Dzyaloshinskii-Moriya Interaction between Multipolar Moments in $5d^1$ Systems. 2018
Revisit on Magnetism of Electrons in Solids : A Grand Unified Theory. 2017. 52. 10. 521-537
松浦弘泰, 三宅和正. Cooperation of Spin-Orbit Interaction and Many-body Effects. 固体物理. 2016. 51. 2. 109-125

ｍore...

Professional career (1)：

Work history (1)：

※ Researcher’s information displayed in J-GLOBAL is based on the information registered in researchmap. For details, see here.

Return to Previous Page