可见/近红外超光谱碲镉汞焦平面研究
张姗, 沈益铭, 刘丹, 钟艳红, 魏彦锋, 廖清君, 陈洪雷, 林春, 丁瑞军, 何力. 可见/近红外超光谱碲镉汞焦平面研究[J]. 应用光学, 2019, 40(3): 429.
ZHANG Shan, SHEN Yiming, LIU Dan, ZHONG Yanhong, WEI Yanfeng, LIAO Qingjun, CHEN Honglei, LIN Chun, DING Ruijun, HE Li. Research on HgCdTe focal plane arrays for ultra-spectrum detection in Vis/NIR[J]. Journal of Applied Optics, 2019, 40(3): 429.
[1] 张若岚,陈洁.从单波段到超光谱——面向多维信息感知的红外光谱成像技术[J].红外技术, 2014, 36(4): 257-264.
[2] GOETZ A, VANE G, Imaging spectrometry of earth remote sensing[ J]. Science, 1985, 228: 1147-1153.
[3] BRECKINRIDGE J B. Evolution of imaging spectrometry: past, present, and future[J]. SPIE, 1996, 2819:2-6.
[4] 孙允珠,蒋光伟,李云端,等. 高光谱观测卫星及应用前景[J].上海航天, 2017,34(3):1-13.
SUN Yunzhu, JIANG Guangwei, LI Yunduan, et al. Hyper-spectral observation satellite and its application prospect[J]. Aerospace Shanghai, 2017, 34(3): 1-13.
[5] 贺霖,潘东,邸辑,等. 高光谱图像目标检测研究进展[J].电子学报,2009, 37(9):2016-2024.
HE Lin, PAN Dong, DI Ji, et al. Research advance on target detection for hyperspectral imagery[J]. Acta Electronica Sinica,2009,37(9):2016-2024.
[6] 熊伟.星载超光谱大气主要温室气体监测载荷[J].航天返回与遥感, 2018, 39(3): 14-24.
XIONG Wei. Hyperspectral greenhouse gases monitor instrument(GMI) for spaceborne payload[J]. Spacecraft Recovery & Remote Sensing, 2018, 39(3): 14-24.
[7] PIQUETTEE C, EDWALLD D, ARNOLD H, et al. Substrate-removed HgCdTe-based focal-plane arrays for short-wavelength infrared astronomy[J]. Journal of Electronic Materials, 2008, 37(9):1396-1400.
[8] ROGALSKI A. Infrared detectors: status and trends[J]. Progress in Quantum Electronics, 2004, 27:59-210.
[9] 高国龙.法国Sofradir公司的空间高光谱传感技术[J].红外, 2017,38(2):46-48.
[10] 陈宇恒,季轶群,周建康,等. 机载可见-红外超光谱成像仪信噪比的估算[J]. 红外与激光工程, 2012,41(9):2300-2303.
CHEN Yiheng, JI Yiqun, ZHOU Jiankang, et al. Signal-to-noise ratio evaluation of airborne visible-infrared hyperspectral imaging spectrometer[J]. Infrared and Laser Engineering, 2012,41(9):2300-2303.
[11] ASAHI T, ODA O, TANIGUCHI Y, et al. Characterization of 100mm Diameter CdZnTe single crystals grown by the vertical gradient freezing method[J]. Journal of Crystal Growth, 1995, 149(1-2): 23-29.
[12] NGUYEN T, LORANS D. Highlights of recent results on HgCdTe thin film photo-conductors[J].Semiconductor Science and Technology, 1991,6:93-95.
[13] LO VECCHIO P, WONG K, PARODOS T, et al. Advances in liquid phase epitaxial growth of Hg1-xCdxTe for SWIR through VLWIR photodiodes[J]. SPIE, 2004, 5564: 65-72.
[14] CHANDRA D, TREGILGAS J H, GDDOWIN M W. Dislocation density variations in HgCdTe films grown by dipping liquid phase epitaxy: Effects on metal-insulator-semiconductor properties[J]. Journal of Vacuum Science Technology B, 1991, 9(3): 1852-1857. [15] LU W, HE L, CHEN X S , et al. The development of HgCdTe infrared detector technology in China[J], SPIE, 2009, 7298: 72982Z-1-13.
张姗, 沈益铭, 刘丹, 钟艳红, 魏彦锋, 廖清君, 陈洪雷, 林春, 丁瑞军, 何力. 可见/近红外超光谱碲镉汞焦平面研究[J]. 应用光学, 2019, 40(3): 429. ZHANG Shan, SHEN Yiming, LIU Dan, ZHONG Yanhong, WEI Yanfeng, LIAO Qingjun, CHEN Honglei, LIN Chun, DING Ruijun, HE Li. Research on HgCdTe focal plane arrays for ultra-spectrum detection in Vis/NIR[J]. Journal of Applied Optics, 2019, 40(3): 429.