研究活動

総説・解説記事

1. “ビスマスのトポロジカルな性質：表面・バルク，実験・理論の立場から”
   平原徹，伏屋雄紀，固体物理 54 425-450 (2019)
2. “久保公式とグリーン関数法の実践的基礎（その５）”
   伏屋雄紀，福山秀敏，固体物理 54 1-25 (2019)
3. “久保公式とグリーン関数法の実践的基礎（その４）”
   伏屋雄紀，福山秀敏，固体物理 53 113-132 (2018)
4. “久保公式とグリーン関数法の実践的基礎（その３）”
   伏屋雄紀，福山秀敏，固体物理 52 413-427 (2017)
5. “久保公式とグリーン関数法の実践的基礎（その２）”
   伏屋雄紀，福山秀敏，固体物理 52 1-21 (2017)
6. “久保公式とグリーン関数法の実践的基礎（その１）”
   伏屋雄紀，福山秀敏，固体物理 51 371-388 (2016)
7. “ビスマスにおけるディラック電子の理論”
   伏屋雄紀，小形正男，福山秀敏，固体物理 47 193-205 (2012)

1. “Magnetoresistance and valley degree of freedom in bulk bismuth”
   Z. Zhu, F. Benoit, K. Behnia & Y. Fuseya: J. Phys.: Cond. Matt. 30, 313001 (2018)
2. “Transport Properties and Diamagnetism of Dirac Electrons in Bismuth”
   Y. Fuseya, M. Ogata and H. Fukuyama, J. Phys. Soc. Jpn. 84 012001 (2015) [Invited review paper]

一般向け解説など

1. “「磁石を金属に近づけるとどうなる？」に答える初めての厳密な量子理論　−強磁場量子物理学の未踏領域へ−”
2. “Insights into quantum limits of materials: First observation of 100% valley-polarization in solids”
3. “100%バレー分極状態を初めて実現 ーバレートロニクスへの新たなアプローチー”
4. “物質の相対論効果を精密に測る-半世紀にわたるスピン軌道結合の謎を解明-”
5. “Physics of semi-metals: Insights into electron transport in bismuth”
6. “平成27年度科学技術分野の文部科学大臣表彰 若手科学者賞を受賞”
7. “量子極限で「局在化」，「相転移」はおこらない”
   「ピーク構造」の正体解明と「双晶境界バリア」現象の発見，全く新しいデバイスへの応用へ踏み出した一歩

学術論文

1. “Nonperturbative Matrix Mechanics Approach to Spin-Split Landau Levels and the g Factor in Spin-Orbit Coupled Solids”
   Y. Izaki and Y. Fuseya: Phys. Rev. Lett. 123, 156403 (2019)
2. “Longitudinal and transverse magnetoresistance of SrTiO3 with a single closed Fermi surface ”
   Y. Awashima and Y. Fuseya: J. Phys.: Condens. Matter 31, 29LT01 (2019)
3. “Magnetoresistance of semimetals: The case of antimony ”
   B. Fauque, X. Yang, W. Tabis, M. Shen, Z. Zhu, C. Proust, Y. Fuseya, and K. Behnia: Phys. Rev. Materials 2, 114201(2018) [Editor's Suggestion]
4. “Corrections to the magnetoresistance formula for semimetals with Dirac electrons: the Boltzmann equation approach validated by the Kubo formula”
   M. Owada, Y. Awashima, Y. Fuseya: J. Phys.: Cond. Matt. 30, 445601 (2018)
5. “Magnetoresistance and valley degree of freedom in bulk bismuth”
   Z. Zhu, F. Benoit, K. Behnia & Y. Fuseya: J. Phys.: Cond. Matt. 30, 313001 (2018)
6. “Analytical Solutions for the Surface States of Bi1−xSbx”
   Y. Fuseya & H. Fukuyama: J. Phys. Soc. Jpn. 87 044710 (2018)
7. “Emptying Dirac valleys in bismuth using high magnetic fields”
   Z. Zhu, J. Wang, H. Zuo, B. Fauque, R. D. McDonald, Y. Fuseya & K. Behnia: Nat. Commun. 8 15297 (2017)
8. “Superconducting and density-wave instabilities of low-dimensional conductors with a Zeeman coupling to a magnetic field”
   M. Shahbazi, Y. Fuseya, H. Bakrim, A. Sedeki, and C. Bourbonnais: Phys. Rev. B 95 165111 (2017)
9. “Crystalline spin-orbit interaction and the Zeeman splitting in Pb_1-xSn_xTe”
   H. Hayasaka and Y. Fuseya, J. Phys.: Condens. Matter 28 31LT01 (2016) [Letter]
10. “Transport and spin conversion of multicarriers in semimetal bismuth”
    H. Emoto, Y. Ando, G. Eguchi, R. Ohshima, E. Shikoh, Y. Fuseya, T. Shinjo, and M. Shiraishi, Phys. Rev. B 93 174428 (2016)
11. “Origin of the Large Anisotropic g Factor of Holes in Bismuth”
    Y. Fuseya, Z. Zhu, B. Fauwue, W. Kang, B. Lenoir and K. Behnia, Phys. Rev. Lett. 115 216401 (2015)
12. “Angle Dependence of the Orbital Magnetoresistance in Bismuth”
    A. Collaudin, B. Fauque, Y. Fuseya, W. Kang, and K. Behnia, Phys. Rev. X 5 021022 (2015)
13. “Anomalous Quantum Transport Properties in Semimetallic Black Phosphorus”
    K. Akiba,, A. Miyake, Y. Akahama, K. Matsubayashi, Y. Uwatoko, H. Arai, Y. Fuseya, and M. Tokunaga, J. Phys. Soc. Jpn. 84 073708 (2015) [Editor's Choice]
14. “Theoretical study of correlation between spin fluctuations and Tc in isovalent-doped 1111 iron-based superconductors”
    H. Arai, H. Usui, K. Suzuki, Y. Fuseya, and K. Kuroki, Phys. Rev. B 81 134511 (2015)
15. “Transport Properties and Diamagnetism of Dirac Electrons in Bismuth”
    Y. Fuseya, M. Ogata and H. Fukuyama, J. Phys. Soc. Jpn. 84 012001 (2015) [Invited review paper]
16. “Band structure of superconducting Dirac electron systems”
    T. Kuraya and Y. Fuseya, Journal of Physics: Conference Series 603 (2015) 012025
17. “Magnetoconductivity of Dirac electrons in bismuth”
    M. Owada and Y. Fuseya, Journal of Physics: Conference Series 603 (2015) 012023
18. “Nontrivial contributions to the magnetoconductivity due to anomalous g-factor in the Luttinger Hamiltonian”
    R. Suemasa and Y. Fuseya, Journal of Physics: Conference Series 603 (2015) 012022
19. “Spin-Hall Effect and Diamagnetism of Anisotropic Dirac Electrons in Solids”
    Y. Fuseya, M. Ogata and H. Fukuyama, J. Phys. Soc. Jpn. 83 074702 (2014)
20. “Conversion of pure spin current to charge current in amorphous bismuth”
    H. Emoto, Y. Ando, E. Shikoh, Y. Fuseya, T. Shinjo and M. Shiraishi: J. Appl. Phys. 115, 17C506-1-3 (2014)
21. “Dirac electrons in solids”
    H. Fukuyama, Y. Fuseya, M. Ogata, A. Kobayashi and Y. Suzumura, Physica B 407 (2012) 1943-1947.
22. “Landau spectrum and twin boundaries of bismuth in the extreme quantum limit”
    Z. Zhu, B. Fauque, L. Malone, A. B. Antunes, Y. Fuseya and K. Behnia: Proc. Natl. A. Acad. Sci. USA, 102 (2012) 14813-14818
23. “Spin-Hall Effect and Diamagnetism of Dirac Electrons”
    Y. Fuseya, M. Ogata and H. Fukuyama: J. Phys. Soc. Jpn. 81 (2012) 093704.
24. “Spin-Polarization in Magneto-Optical Conductivity of Dirac Electrons”
    Y. Fuseya, M. Ogata and H. Fukuyama: J. Phys. Soc. Jpn. 81 (2012) 013704.
25. “Angle-resolved Landau spectrum of electrons and holes in bismuth”
    Z. Zhu, B. Fauque, Y. Fuseya and K. Behnia, Phys. Rev. B 84 115137 (2011) [Editor's Suggestion]