Research field (1):
Magnetism, superconductivity, and strongly correlated systems
Research keywords (4):
遷移金属化合物
, 超伝導
, 磁性
, 強相関電子系
Research theme for competitive and other funds (14):
2022 - 2025 スピン軌道相互作用が紡ぐ強相関電子物性の探求
2019 - 2024 量子液晶物質の開発
2019 - 2024 Physical Properties of Quantum Liquid Crystals
2020 - 2023 Effective hamiltonian construction through combining numerical simulation with experimental approaches and its application to strongly correlated topological materials
2019 - 2021 Carrier-doping into Kitaev spin liquids by soft chemical process
2018 - 2021 Superconductivity and multiferroics in Fe-based ladder materials
2018 - 2020 奇パリティ多極子秩序系におけるドメイン観察手法の開発と新奇量子伝導の開拓
2016 - 2019 Study for electronic state of pressure-indeced superconductivity in iron-based ladder-type material and search for related superconductors
2016 - 2018 奇パリティ多極子秩序系における新奇量子伝導
2014 - 2017 Material science on post-perovskite phases
2012 - 2015 Study of metal-insulator transition in the 5d transition metal pyrochlore oxide Cd2Os2O7
2008 - 2010 Synthesis and function development of mercury-including pyrochlore-type oxides
2008 - 2009 Research on correlated electronic properties of iridium oxides
Fuki Sato, Hideyuki Fujihara, Hirotada Gotou, Takuya Aoyama, Yoshinori Imai, Kenya Ohgushi. Insulator-metal transition in Ru(Br1-x Ix)3 with honeycomb structure. Physical Review B. 2024. 109. 3
T. Weinhold, C. Wang, F. Seewald, V. Grinenko, Y. Imai, F. Sato, K. Ohgushi, H. H. Klauss, R. Sarkar. Magnetism in the Kitaev quantum spin liquid candidate RuBr3. Physical Review B. 2024. 109. 1
Takuya Aoyama, Rinto Nojima, Touru Yamauchi, Yoshinori Imai, Kenya Ohgushi. Pressure-induced switching of electronic nematicity in the iron-based ladder materials Formula Presented Formula Presented. Physical Review B. 2023. 108. 9
Youngsu Choi, Je Ho Lee, Seungyeol Lee, Dirk Wulferding, Hideyuki Fujihara, Fuki Sato, Yoshinori Imai, Kenya Ohgushi, Maeng Je Seong, Kwang Yong Choi. Magnetic and spin-orbit exciton excitations in the honeycomb lattice compound RuBr3. Physical Review B. 2022. 106. 17