2021

(1) X.-C. Sun and X. Hu, "Topological Ring Cavity Laser Formed by Honeycomb Photonic Crystals", Phys. Rev. B vol.103, 245305 (2021).

(2) X.-C. Sun, X.-X Wang, T. Amemiya and X. Hu, "Comment on 'Spin-Momentum-Locked Edge Mode for Topological Vortex Lasing' by Z.-Q. Yang et al., Phys. Rev. Lett. vol. 125, 013903 (2020)", Phys. Rev. Lett. vol.127, 209401 (2021).

(3) H. Huang, T. Kariyado and X. Hu, "Topological Josephson plasma modes on honeycomb lattice", Opt. Mat. Express vol.11, 448 (2021).

(4) S. Suetsugu, K. Kitagawa, T. Kariyado, A. W. Rost, J. Nuss, C. Mühle, M. Ogata, and H. Takagi, "Giant orbital diamagnetism of three-dimensional Dirac electrons in Sr3PbO antiperovskite", Phys. Rev. B vol. 103, 115117 (2021). [Editors' Suggestion]

(5) T. Kariyado and R.-J. Slager, "Selective branching, quenching, and converting of topological modes", Phys. Rev. Research 3, L032035 (2021).

(6) H. Kagami, T. Amemiya, S. Okada, N. Nishiyama and X. Hu, "Highly efficient vertical coupling to topological waveguide with defect structure", Optics Express 29, 32755 (2021).

(7) H. Huang, T. Kariyado and X. Hu, "Topological magnon modes on honeycomb lattice with coupling textures", submitted to Sci. Rep.

(8) X. -X. Wang, Z.-W. Guo, J. Song, H.-T. Jiang, H. Chen and X. Hu, "Weyl Semiconductor State and Diamagnetic Chiral Response in Two Dimensions", submitted to Sci. Adv.

(9) H. Kagami, T. Amemiya, S. Okada, Y. Wang, N. Nishiyama and X. Hu, "Selective excitation of optical vortex modes with specific charge numbers in band-tuned topological waveguides", submitted to Optics Lett.

(10) T. Amemiya, S. Okada, N. Takahashi, H. Kagami, X.-C. Sun, N. Nishiyama and X. Hu, "Circularly polarized light emission from topological LED on Si", submitted to Optica.

2020

(1) Z.-K. Shao, H.-Z. Chen, S. Wang, X.-R. Mao, Z.-Q. Yang, S.-L. Wang, X.-X. Wang, X. Hu and R.-M. Ma, "A high-performance topological bulk laser based on band-inversion-induced reflection", Nat. Nanotechnol. vol. 15, 67 (2020).

(2) X.-X. Wang and X. Hu, "Reconfigurable topological waveguide based on honeycomb lattice of dielectric cuboids", Nanophotonics, DOI: 10.1515/nanoph-2020-0146 (2020).

(3) H. Kagami, T. Amemiya, S. Okada, N. Nishiyama and X. Hu, "Topological converter for high-efficiency coupling between Si wire waveguide and topological Si waveguide", Optics Express vol. 28, 33619 (2020).

(4) T. Kariyado and X. Hu, "Designing Topological States in Honeycomb Lattice with Bond Alternations", Solid State Physics, vol. 55, 185 (2020) [in Japanese].

(5) X. Hu, T. Amemiya and A. Kikuchi, "Topological Property and Novel Photonic Function of Honeycomb Dielectric Photonic Crystal", J. of Optics Society vol. 49, 448 (2020) [in Japanese].

(6) Q.-F. Liang, Z. Wang, T. Kawakami and X. Hu, "Exploration of Majorana Bound States in Topological Superconductors", Acta Physica Sinica vol. 69, 117102 (2020) [in Chinese].