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本课题组主要的研究兴趣为拓扑光子学、拓扑能带理论、非厄米物理学、以及微纳光学理论等。欢迎对数学物理感兴趣的同学加入本组。
2024年国家自然科学基金优秀青年基金(海外);
2023年上海市白玉兰计划。
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支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg2024年国家自然科学基金优秀青年基金(海外);
2023年上海市白玉兰计划。
1. Jia H, Zhang R, Gao W, et al. Observation of chiral zero mode in inhomogeneous three-dimensional Weyl metamaterials[J]. Science, 2019, 363(6423): 148-151.
2. Hu, J., Zhang, R. Y., Wang, Y., Ouyang, X., Zhu, Y. *, Jia, H.*, & Chan, C. T. * (2023). Non-Hermitian swallowtail catastrophe revealing transitions among diverse topological singularities. Nature Physics, 19(8), 1098-1103.
3. Jia, H. *, Wang, M., Ma, S., Zhang, R. Y., Hu, J., Wang, D., & Chan, C. T. * (2023). Experimental realization of chiral Landau levels in two-dimensional Dirac cone systems with inhomogeneous effective mass. Light: Science & Applications, 12(1), 165.
4. Jia, H. *, Zhang, R. Y., Hu, J., Xiao, Y., Zhang, S., Zhu, Y. *, & Chan, C. T. * (2023). Topological classification for intersection singularities of exceptional surfaces in pseudo-Hermitian systems. Communications Physics, 6(1), 293.
5. Jia, H., Zhang, R. Y., Gao, W., Zhang, S. *, & Chan, C. T. * (2021). Chiral transport of pseudospinors induced by synthetic gravitational field in photonic Weyl metamaterials. Physical Review B, 104(4), 045132.
6. Ma S, Jia H, Bi Y, et al. Gauge field induced chiral zero mode in five-dimensional Yang monopole metamaterials[J]. Physical Review Letters, 2023, 130(24): 243801.
7. Wang, D., Jia, H., Yang, Q., Hu, J., Zhang, Z. Q., & Chan, C. T. (2023). Intrinsic triple degeneracy point bounded by nodal surfaces in chiral photonic crystal. Physical Review Letters, 130(20), 203802.
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