红外与激光工程, 2021, 50 (1): 20211009, 网络出版: 2021-03-24
局域光场增强的量子阱红外探测器(特邀) 
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Quantum well infrared detector enhanced by local light field (Invited)
图 & 表
图 1. Three transition modes in quantum well: BTB, BTC and BTQB, respectively[1]量子阱中的三种工作模式: BTB,BTC,BTQB跃迁模式[1]
Fig. 1.
图 4. Structure diagram of hybrid structure device with periodic gold stripe and overlaying gold film[6]周期性金条纹与金膜重叠的混合结构器件结构图[6]
Fig. 4.
图 6. Structure of wavelength tunable surface plasmon enhanced quantum well infrared detector[7]波长可调的表面等离激元增强的量子阱红外探测器结构[7]
Fig. 6.
图 7. Long range surface plasmon coupling enhanced quantum well infrared detector[13]长程表面等离激元耦合增强量子阱红外探测器[13]
Fig. 7.
图 8. Distribution spectra of E z in Si3N4 quantum well region with different thicknesses[13]不同厚度的Si3N4量子阱区域中E z的分布光谱[13]
Fig. 8.
图 9. Distribution of E z and J z in the quantum well region under the 500 nm thick Si3N4 layer[13]500 nm厚的Si3N4 层下量子阱区域内E z和J z分布[13]
Fig. 9.
图 11. E z distribution of conventional QWIP and waveguide resonance enhanced QWIP[16]传统量子阱红外探测器和波导共振增强的量子阱红外探测器量子阱区域内的E z分布[16]
Fig. 11.
图 12. Structure of guided mode resonance integrated quantum well infrared detector[21]导模共振集成量子阱红外探测器结构示意图[21]
Fig. 12.
图 13. Absorption spectrum of guided mode resonance integrated quantum well infrared detector[21]导模共振集成量子阱红外探测器吸收光谱[21]
Fig. 13.
图 15. Schematic diagram of laterally biased structures for quantum well infrared detector[22]横向偏置的量子阱红外探测器原理图[22]
Fig. 15.
图 16. Structure of laterally biased structures for quantum well infrared detector[22]横向偏置的量子阱红外探测器器件结构[22]
Fig. 16.
刘畅, 王健, 左璇, 熊大元. 局域光场增强的量子阱红外探测器(特邀)[J]. 红外与激光工程, 2021, 50(1): 20211009. Chang Liu, Jian Wang, Xuan Zuo, Dayuan Xiong. Quantum well infrared detector enhanced by local light field (Invited)[J]. Infrared and Laser Engineering, 2021, 50(1): 20211009.
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