洪晓晨

个人简介：2010年（本科）、2015年（博士）毕业于复旦大学，2016-2024年在德国莱布尼茨学会固态与材料研究所（IFW-Dresden）及Wuppertal大学从事博士后研究工作。2024年9月加入重庆大学物理学院，从事实验凝聚态物理研究。

联系方式：hongxc@cqu.edu.cn   

重庆大学虎溪校区第一实验楼DS1222室

主要研究方向：以低温强磁场下的输运与热力学性质测量，尤其是极低温下的热输运精确测量为手段，结合应力调控，研究超导体、量子磁体等量子材料的性质。

代表性论文：

1.        X. C. Hong, M. Gillig, W. L. Yao, L. Janssen, V. Kocsis, S. Gass, Y. Li, A. U. B. Wolter, B. Büchner, and C. Hess “Phonon thermal transport shaped by strong spin-phonon scattering in a Kitaev material Na₂Co₂TeO₆” npj Quantum Materials 9, 18 (2024).

2.        X. C. Hong, M. Gillig, A. R. N. Hanna, S. Chillal, A. T. M. N. Islam, B. Lake, B. Büchner, and C. Hess “Spinon heat transport in the three-dimensional quantum magnet PbCuTe₂O₆” Physical Review Letters 131, 256701 (2023).

3.        X. C. Hong, M. Behnami, L. Yuan, B. Q. Li, W. Brenig, B. Büchner, Y. S. Li, and C. Hess “Heat transport of the kagome Heisenberg quantum spin liquid candidate YCu₃(OH)_6.5Br_2.5: localized magnetic excitations and a putative spin gap” Physical Review B 106, L220406 (2022).

4.        X. C. Hong, S. Sykora, F. Caglieris, M. Behnami, I. Morozov, S. Aswartham, V. Grinenko, K. Kihou, C.-H. Lee, B. Büchner, and C. Hess “Elastoresistivity of heavily hole doped 122 iron pnictides superconductors” Frontiers in Physics 10, 853717 (2022). (Invited Contribution)

5.        X. C. Hong, M. Gillig, R. Hentrich, W. L. Yao, V. Kocsis, A. R. Witte, T. Schreiner, D. Baumann, N. Pérez, A. U. B. Wolter, Y. Li, Bernd Büchner, and C. Hess “Strongly scattered phonon heat transport of the candidate Kitaev material Na₂Co₂TeO₆” Physical Review B 104, 144426 (2021). (Editor’s Suggestion)

6.        X. C. Hong, F. Caglieris, R. Kappenberger, S. Wurmehl, S. Aswartham, F. Scaravaggi, P. Lepucki, A. U. B. Wolter, H.-J. Grafe, B. Büchner, and C. Hess “Evolution of the nematic susceptibility in LaFe_1−xCo_xAsO” Physical Review Letters 125, 067001 (2020).

7.        X. C. Hong, A. F. Wang, Z. Zhang, J. Pan, L. P. He, X. G. Luo, X. H. Chen, and S. Y. Li “Doping evolution of the superconducting gap structure in heavily hole-doped Ba_1-xK_xFe₂As₂: a heat transport study”, Chinese Physics Letters 32, 127403 (2015).

8.        X. C. Hong, Z. Zhang, S. Y. Zhou, J. Pan, Y. Xu, H. D. Wang, Q. H. Mao, M. H. Fang, J. K. Dong, and S. Y. Li “Multigap nodeless superconductivity in nickel chalcogenide TlNi₂Se₂”, Physical Review B 90, 060504(R) (2014).

9.        X. C. Hong, X. L. Li, B. Y. Pan, L. P. He, A. F. Wang, X. G. Luo, X. H. Chen, and S. Y. Li “Nodal gap in iron-based superconductor CsFe₂As₂ probed by quasiparticle heat transport”, Physical Review B 87, 144502 (2013).

10.    M. Gillig, X. C. Hong, C. Wellm, V. Kataev, W. L. Yao, Y. Li, B. Büchner, and C. Hess “Phononic-magnetic dichotomy of the thermal Hall effect in the Kitaev material Na₂Co₂TeO₆” Physical Review Research 5, 043110 (2023).

11.    M. Gillig, X. C. Hong, P. Sakrikar, G. Bastien, A.U.B. Wolter, L. Heinze, S. Nishimoto, B. Büchner, and C. Hess “Thermal transport of the frustrated spin-chain mineral linarite: Magnetic heat transport and strong spin-phonon scattering” Physical Review B 104, 235129 (2021).

12.    F. Caglieris, C. Wuttke, X. C. Hong, S. Sykora, R. Kappenberger, S. Aswartham, S. Wurmehl, B. Büchner, and C. Hess “Strain derivative of thermoelectric properties as a sensitive probe for nematicity” npj Quantum Materials 6, 27 (2021).

13.    R. Hentrich, X. C. Hong, M. Gillig, F. Caglieris, M. Čulo, M. Shahrokhvand, U. Zeitler, M. Roslova, A. Isaeva, T. Doert, L. Janssen, M. Vojta, B. Büchner, C. Hess “High-field thermal transport properties of the Kitaev quantum magnet α-RuCl₃: Evidence for low-energy excitations beyond the critical field” Physical Review B 102, 235155 (2020).

14.    B. Y. Pan, Y. Xu, J. M. Ni, S. Y. Zhou, X. C. Hong, X. Qiu, and S. Y. Li “Unambiguous Experimental Verification of Linear-in-Temperature Spinon Thermal Conductivity in an Antiferromagnetic Heisenberg Chain” Physical Review Letters 129, 167201 (2022).

15.    T. P. Ying, X. F. Lai, X. C. Hong, Y. Xu, L. P. He, J. Zhang, M. X. Wang, Y. J. Yu, F. Q. Huang, and S. Y. Li “Nodal superconductivity in FeS: Evidence from quasiparticle heat transport” Physical Review B 94, 100504(R) (2016).

16.    Y. Xu, J. Zhang, Y. S. Li, Y. J. Yu, X. C. Hong, Q. M. Zhang, and S. Y. Li “Absence of magnetic thermal conductivity in the quantum spin liquid candidate YbMgGaO₄” Physical Review Letters 117, 267202 (2016).

17.    L. P. He, Y. T. Jia, S. J. Zhang, X. C. Hong, C. Q. Jin, and S. Y. Li “Pressure-induced superconductivity in the three-dimensional Dirac semimetal Cd₃As₂”, npj Quantum Materials 1, 16014 (2016).

18.    P. L. Cai, J. Hu, L. P. He, J. Pan, X. C. Hong, Z. Zhang, J. Zhang, J. Wei, Z. Q. Mao, and S. Y. Li “Drastic pressure effect on the extremely large magnetoresistance in WTe_{2 :} quantum oscillation study”, Physical Review Letters 115, 257202 (2015).

19.    L. P. He, X. C. Hong, J. K. Dong, J. Pan, Z. Zhang, J. Zhang, and S. Y. Li “Quantum transport evidence for the three-dimensional Dirac semimetal phase in Cd₃As₂”, Physical Review Letters 113, 246402 (2014). (Editor’s Suggestion)

20.    S. Y. Zhou, X. C. Hong, X. Qiu, B. Y. Pan, Z. Zhang, X. L. Li, W. N. Dong, A. F. Wang, X. G. Luo, X. H. Chen, and S. Y. Li “Evidence for nodeless superconducting gap in NaFe_1-xCo_xAs from low-temperature thermal conductivity measurements”, Europhysics Letters 101, 17007 (2013). (Editor’s Choice)

*更新于2024年12月