Publications
Papers
[11] M. Kawano,
"SU(3) gauge field of magnons in antiferromagnetic skyrmion crystals"
[10] M. Kawano, F. Pollmann, M. Knap,
"Unconventional spin transport in strongly correlated kagome systems"
Phys. Rev. B 109, L121111 (2024). [arXiv:2307.13725]
[9] H. Takeda*, M. Kawano*, K. Tamura, M. Akazawa, J. Yan, T. Waki, H. Nakamura, K. Sato, Y. Narumi, M. Hagiwara, M. Yamashita, C. Hotta, (*: equal contribution)
"Magnon thermal Hall effect via emergent SU(3) flux on the antiferromagnetic skyrmion lattice"
Nat. Commun. 15, 566 (2024). [arXiv:2304.08029] [Press releases]
[8] H. Nakai, M. Kawano, C. Hotta,
"Uncovering hidden chiral symmetry in nonbipartite kagome and pyrochlore lattices with spin-orbit coupling by the Wilson loop"
Phys. Rev. B 108, L081106 (2023). [arXiv:2208.07171]
[7] M.Kawano, C.Hotta,
"Phase diagram of the square lattice Hubbard model with Rashba-type antisymmetric spin-orbit coupling"
Phys. Rev. B 107, 045123 (2023). [arXiv:2208.09902]
[6] M. Kawano, C. Hotta,
"Sine-square deformed mean-field theory"
Phys. Rev. Research 4, L012033 (2022). [arXiv:2304.08200]
[5] M. Kawano, C. Hotta,
"Comparative study of the density matrix embedding theory for Hubbard models"
Phys. Rev. B 102, 235111 (2020). [arXiv:2009.11477]
[4] M. Kawano, C. Hotta,
"Discovering momentum-dependent magnon spin texture in insulating antiferromagnets: Role of the Kitaev interaction"
Phys. Rev. B 100, 174402 (2019). [arXiv:1909.05174]
[3] M. Kawano, Y. Onose, C. Hotta,
"Designing Rashba–Dresselhaus effect in magnetic insulators"
Commun. Phys. 2, 27 (2019). [arXiv:1805.03925] [Articles]
[2] M. Kawano, C. Hotta,
"Thermal Hall effect and topological edge states in a square-lattice antiferromagnet"
Phys. Rev. B 99, 054422 (2019). [arXiv:1805.05872]
[1] Y. Iguchi, Y. Nii, M. Kawano, H. Murakawa, N. Hanasaki, Y. Onose,
"Microwave nonreciprocity of magnon excitations in the noncentrosymmetric antiferromagnet Ba2MnGe2O7"
Phys. Rev. B 98, 064416 (2018). [arXiv:1804.03250]
Articles
[1] 川野 雅敬, 堀田知佐
「反強磁性絶縁体のマグノン励起にみられるスピンテクスチャと異常熱ホール効果」