| [1] | Kuo C Y, Lu S Y, Chen S, et al. Stop band shift based chemical sensing with three-dimensional opal and inverse opal structures[J]. Sensors and Actuators B Chemical, 2007, 124(2):452-458. |
| [2] | Segal N, Keren-Zur S, Hendler N, et al. Controlling light with metamaterial-based nonlinear photonic crystals[J]. Nature Photonics, 2015, 9(3):180-184. |
| [3] | Ma Tao, Shen Yibing, Yang Guoguang. Improving diffraction efficiency of DOE in wide waveband application by multilayer micro-structure[J]. Infrared and Laser Engineering, 2008, 37(1):119-123. (in Chinese) |
| [4] | Jiang Y W, Tsai M W, Ye Y H, et al. Enhancement of thermal radiation in plasmonic thermal emitter by surface plasmon resonance[C]//8th IEEE Conference on Nanotechnology, 2008:973-983. |
| [5] | Melentev G A, Shalygin V A, Vorobjev L E, et al. Interaction of surface plasmon polaritons in heavily doped GaN microstructures with terahertz radiation[J]. Journal of Applied Physics, 2016, 119(9):093104. |
| [6] | Weng B, Ma J, Wei L, et al. Mid-infrared surface-emitting photonic crystal microcavity light emitter on silicon[J]. Applied Physics Letters, 2010, 97(23):231103. |
| [7] | Tay S, Kropachev A, Araci I E, et al. Plasmonic thermal IR emitter based on nanoamorphous carhon[J]. Applied Physics Letters, 2009, 94(7):071113. |
| [8] | Nguyen-Huu N, Pistora J, Cada M. Wavelength-selective emitters with pyramid nanogratings enhanced by multiple resonance modes[J]. Nanotechnology, 2016, 27(15):155402. |
| [9] | Maruyama S, Kashiwa T, Yugami H, et al. Thermal radiation from two-dimensionally confined modes in microcavities[J]. Applied Physics Letters, 2001, 79(9):1393-1395. |
| [10] | Su An. Transmission spectrum of one-dimensional photonic crystal for realizing high-performance optical transmission function[J]. Infrared and Laser Engineering, 2011, 40(6):1101-1105. (in Chinese) |
| [11] | Kohiyama A, Shimizu M, Iguchi F, et al. Narrowband thermal radiation from closed-end microcavities[J]. Journal of Applied Physics, 2015, 118(13):133102. |
| [12] | Liao Tongqing, Peng Lulu, Wu Sheng, et al. Reduce reflected light from silicon solar cells based on optical microstructure[J]. Infrared and Laser Engineering, 2015, 44(1):201-204. (in Chinese) |
| [13] | Sai H, Kanamori Y, Yugami H. High-temperature resistive surface grating for spectral control of thermal radiation[J]. Applied Physics Letters, 2003, 82(11):1685-1687. |
| [14] | Ge Debiao, Yan Yubo. Finite-Difference Time-Domain Method for Electromagnetic Waves[M]. 2nd ed. Xi'an:Xi'an Electronic and Science University Press, 2005:11-14. (in Chinese) |
| [15] | Palik E D. Handbook of Optial Constants of Solids[M]. New York:Academic Press Inc, 1985:350-357. |
| [16] | Zhang Keqian, Li Dejie. Electromagnetic Theory for Microwaves and Optoelectronics(Second Edition)[M]. Beijing:Electronic Industry Press, 2001:277-279. (in Chinese) |
| [17] | Wang Jiali, Zhu Manzuo, Lu Hongmin. Electromagnetic Field and Electromagnetic Wave[M]. Xi'an:Xi'an Electronic and Science University Press, 2002:193-194. (in Chinese) |