A tubular quantum well infrared photodetector under vertically-incident light coupling

WANG Han; LI Shi-Long; ZHEN Hong-Lou; LI Meng-Yao; NIE Xiao-Fei; HUANG Gao-Shan; MEI Yong-Feng; LU Wei

doi:10.11972/j.issn.1001-9014.2017.02.011

[1] Rogalski A, Antoszewski J, Faraone L. Third-generation infrared photodetector arrays [J]. Journal of Applied Physics, 2009, 105(9): 091101.

[4] Liu H C, Buchanan M. Wasilewski Z R. How good is the polarization selection rule for intesubband transition [J]. Applied Physics Letters, 1998, 72(72): 1882-1694.

[5] West L C, Eglash S J. First observation of an extremely large-dipole infrared transition within the conduction band of a GaAs quantum well [J]. Applied Physics Letters, 1985, 46(12): 1156-1158.

[6] Levine B F, Choi K K, Bethea C G, et al. New 10 μm infrared detector using intersubband absorption in resonant tunneling GaAlAs superlattices [J]. Applied Physics Letters, 1987, 50(16):1092-1094.

[7] Levine B F, Malik R J, Walker J, et al.Strong 8.2μm infrared intersubband absorption in doped GaAs/AlAs quantum well waveguides [J]. Applied Physics Letters, 1987, 50(5): 273-275.

[8] Zhang R, Guo X G, Song C Y, et al. Metal-grating-coupled terahertz quantum-well photodetectors [J]. IEEE Electron Device Letters, 2011, 32(5): 659-661.

[9] Lundqvist L, Andersson J Y, Paska Z F, et al. Efficiency of grating coupled AlGaAs/GaAs quantum well infrared detectors [J]. Applied Physics Letters, 1993, 63(24):3361-3363.

[11] Sarusi G, Levine B F, Pearton S J, et al. Improved performance of quantum well infrared photodetectors using random scattering optical coupling [J]. Applied Physics Letters, 1994, 64(8):960-962.

[12] Chen C J, Choi K K, Chen W H, et al. Corrugated quantum well infrared photodetectors [C]. Proc. of SPIE, Infrared Technology and Applications XXIII, 1997, 3061: 728-738.

[13] Kalchmair S, Detz H, Cole G D, et al. Photonic crystal slab quantum well infrared photodetector [J]. Applied Physics Letters, 2011, 98(1):011105.

[14] Wu W, Bonakdar A, Mohseni H. Plasmonic enhanced quantum well infrared photodetector with high detectivity [J]. Applied Physics Letters, 2010, 96(16):161107.

[15] Li Q, Li Z F, Li N, et al. High-polarization-discriminating infrared detection using a single quantum well sandwiched in plasmonic micro-cavity [J]. Scientific Report, 2014, 4(5):934-949.

[16] Wang H, Zhen H L, Li S L, et al. Self-rolling and light-trapping in flexible quantum well-embedded nanomembranes for wide-angle infrared photodetectors [J]. Science Advances, 2016, 2(8): e1600027.

[18] Schneider H, Liu H C. Quantum well infrared photodetectors: Physics and Applications [M]. Berlin: Springer-Verlag, 2007, 21-27.

[19] Binder R, Gu B, Kwong N H. Quantum-confined strain gradient effect in semiconductor nanomembranes [J]. Physical Review B, 2014, 90(19):195208.