研究领域：等离激元光子学、电磁波超材料

发表学术论文列表（按时间逆序）：

[1] X. G. Yin, Y. W. Liu and C. P. Huang, “Trapped mode resonances in symmetric rectangular- hole tetramers”, J. Phys. D: Appl. Phys. 55, 045302 (2022).

[2] C. P. Huang, and X. G. Yin, “Optical properties of single metallic nanorods: An analytical model” J. Appl. Phys. 132, 083101 (2022).

[3] X. G. Yin, M. Q. Wu, Y. W. Liu and C. P. Huang, “A planar metamaterial based on metallic rectangular-ring pair for narrow electromagnetically induced transparency-like effect”, J. Appl. Phys. 128, 065105 (2020).

[4] J. C. Yan, Y. Zhang, X. G. Yin, and C. P. Huang, “Excitation and Dynamic Tuning of High-Q Resonances with Electromagnetic Coupling Asymmetry”, Phys. Rev. Applied,14, 054003 (2020).

[5] C. P. Huang, J. Y. Hua, Y. Zhang, and X. G. Yin, “Transmissive and efficient 90° polarization rotation with a single-layer plasmonic structure”, Appl. Phys. Express 10, 112201 (2017)

[6] C. P. Huang, Q. J. Wang, X. G. Yin, Y. Zhang, J. Q. Li, and Y. Y. Zhu, “Break through the limitation of Malus’ law with plasmonic polarizers”, Adv. Optical Mater. 2,723(2014).

[7] X. G. Yin, T. H. Feng, S. P. Yip, Z. X. Liang, A. Hui, J. C. Ho, and J. Li, “Tailoring electromagnetically induced transparency for terahertz metamaterials: From diatomic to triatomic structural molecules”, Appl. Phys. Lett. 103, 021115 (2013).
[8] Y. Zhang, X. G. Yin, M. Han, and C. P. Huang, “Decreased cutoff wavelength of a rectangular hole dimer in a metal”, J. Opt. 15, 025005 (2013).
[9] C. P. Huang, S. B. Wang, X. G. Yin, Y. Zhang, H. Liu, Y. Y. Zhu, and C. T. Chan, “Enhanced electromagnetic pressure in a sandwiched reflection grating”, Phys. Rev. B 86, 085446 (2012).
[10] C. P. Huang, X. G. Yin, Y. Zhang, S. B. Wang, Y. Y. Zhu, H. Liu, and C. T. Chan, “Deep subwavelength Fabry-Perot-like resonances in a sandwiched reflection grating”, Phys. Rev. B 85, 235410 (2012).
[11] X. G. Yin, T. Feng, Z. Ling, and J. Li, “Artificial Kerr-type medium using metamaterials”, Opt. Express, 20, 8543(2012).

[12] X. G. Yin, C. P. Huang, Q. J. Wang, W. X. Huang, L. Zhou, C. Zhang, and Y. Y. Zhu, “Fano like resonance due to plasmonic excitation in linear chains of metal bumps”, Opt. Express 19, 10485 (2011).

[13] W. X. Huang, Q. J. Wang, X. G. Yin, C. P. Huang, H. Huang­, Y. M. Wang, and Y. Y. Zhu, “Optical resonances in a composite asymmetric plasmonic nanostructure”, J. Appl. Phys. 109, 114310 (2011).

[14] C. P. Huang, Y. Zhang, Q. J. Wang, X. G. Yin, G. D. Wang, J. Q. Liu, and Y. Y. Zhu, “Dual channels of transmission using rectangular hole dimers”, J. Phys. Chem. C, 115, 24621 (2011).

[15] C. P. Huang, X. G. Yin, L. B. Kong, and Y. Y. Zhu, “Interactions of nanorod particles in the strong coupling regime”, J. Phys. Chem. C, 114, 21123 (2010).

[16] L. Zhou, C. P. Huang, S. Wu, X. G. Yin, Y. M. Wang, Q. J. Wang, and Y. Y. Zhu, “Enhanced optical transmission through metal-dielectric multilayer gratings”, Appl. Phys. Lett. 97, 011905 (2010).

[17] W. X. Huang, X. G. Yin, C. P. Huang, Q. J. Wang, T. F. Miao, and Y. Y. Zhu, “Optical switching of a metamaterial by temperature controlling”, Appl. Phys. Lett. 96, 261908 (2010).

[18] C. P. Huang, X. G. Yin, Q. J. Wang, H. Huang, and Y. Y. Zhu, Long-wavelength optical properties of a plasmonic crystal, Phys. Rev. Lett. 104, 016402 (2010).

[19] X. G. Yin, C. P. Huang, Q. J. Wang, and Y. Y. Zhu, “Transmission resonance in a composite plasmonic structure”, Phys. Rev. B 79, 153404 (2009).

[20] X. G. Yin, C. P. Huang, Z. Q. Shen, Q. J. Wang, and Y. Y. Zhu, “Splitting of transmission peak due to the hole symmetry breaking”, Appl. Phys. Lett. 94, 161904 (2009).

[21] C. P. Huang, X. G. Yin, H. Huang, and Y. Y. Zhu, “Study of plasmon resonance in a gold nanorod with an LC circuit mode”, Opt. Express 17, 6407 (2009).

[22] S. Q. Liu, Q.J. Wang, X. G. Yin, C. P. Huang, and Y. Y. Zhu, “Cutoff effect of light transmission through structured metal films”, Appl. Phys. Lett. 92, 191914 (2008).

[23] S. Wu, Q. J. Wang, X. G. Yin, J.Q. Li, D. Zhu, S. Q. Liu, and Y. Y. Zhu, “Enhanced optical transmission: Role of the localized surface plasmon”, Appl. Phys. Lett. 93, 101113 (2008).

[24] T. Li, H. Liu, S. M. Wang, X. G. Yin, F. M. Wang, S. N. Zhu, and X. Zhang, “Manipulating optical rotation in extraordinary transmission by hybrid plasmonic excitations”, Appl. Phys. Lett. 93, 021110 (2008).

[25] C. P. Huang, J. Q. Li, Q. J. Wang, X. G. Yin, and Y. Y. Zhu, “Light reflection from a metal surface with subwavelength cavities”, Appl. Phys. Lett. 93, 081917 (2008).