Infrared Technology, Volume. 43, Issue 7, 622(2021)
Investigation of Energy Band Structures of InAs/GaSb and M Structure Superlattices
References(17)
[1] [1] Rhiger D R. Performance Comparison of Long-Wavelength InfraredType II Superlattice Devices with HgCdTe[J]. J. Electron Mater., 2011, 40: 1815.
[2] [2] Sai Halasz G A, Tsu R, Esaki L.A new semiconductor superlattice[J]. Appl. Phys. Lett., 1977, 30: 651.
[3] [3] Smith D L, Mailhiot C. Proposal for strained type II superlattice infrared detectors[J]. J. Appl. Phys., 1987, 62: 2545.
[4] [4] Youngsdale E R, Meyer J R, Hoffman C A, et al. Auger lifetime enhancement in InAs-Ga1-xInxSb superlattices[J]. Appl. Phys. Lett., 1994, 64: 3162.
[5] [5] Rogalski A, Martyniuk P, Kopytko M. InAs/GaSb type-II superlattice infrared detectors: Future prospect[J]. Appl. Phys. Rev., 2017(4): 031304.
[6] [6] Nguyen B M, Hoffman D, Delaunay PY, et al. Dark current suppression in type II InAs/GaSb superlattice long wavelength infrared photodiodes with M-structure barrier[J]. Appl. Phys. Lett., 2007, 91: 163511.
[7] [7] Gunapala S D, Ting D Z, Hill C J, et al. Demonstration of a 1024×1024 Pixel InAs-GaSb Superlattice Focal Plane Array[J]. IEEE Photon. Technol. Lett., 2010, 22: 1856.
[8] [8] Klipstein P C, Avnon E, Benny Y, et al. InAs/GaSb Type II superlattice barrier devices with a low dark current and a high quantum efficiency[C]//Proc. of SPIE, 2014, 9070: 90700U.
[9] [9] Vurgaftman I, Aifer E H, Canedy C L, et al. Graded band gap for dark-current suppression in long-wave infrared W-structured type-II superlattice photodiodes[J]. Appl. Phys. Lett., 2006, 89: 121114.
[10] [10] XU W, LI L L, DONG H M, et al. Band hybridization and spin-splitting in InAs/AlSb/GaSb type II and broken-gap quantum wells[J]. J. Appl. Phys., 2010, 108: 053709.
[11] [11] CHUANGS L. Physics of Photonic Devices[M]. New York: Wiley, 2nd ed. 2009.
[12] [12] Vurgaftman I, Meyer J R, Ram-Mohan L R. Band parameters for III–V compound semiconductors and their alloys[J]. J. Appl. Phys., 2001, 89: 5815.
[13] [13] Shun Lien Chuang. Efficient band-structure calculations of strained quantum wells[J]. Phys. Rev. B, 1991, 43: 9649.
[14] [14] Nakamura K, Shimizu A, Koshiba M, et al. Finite-element analysis of the miniband structures of semiconductor superlattices with arbitrary periodic potential profiles[J]. IEEE J. Quantum Electron., 1991, 27: 2053.
[15] [15] Chuang S L, Chang C S. A band-structure model of strained quantum-well wurtzite semiconductors[J]. Semicond. Sci. Technol., 1997, 12: 252.
[16] [16] Davies J H. The Physics of Low-Dimensional Semiconductors: An Introduction[M]. Cambridge: Cambridge University Press, 2005.
[17] [17] Frank Fuchs, N Herres, J Schmitz, et al. InAs/GaSb superlattices characterized by high-resolution x-ray diffraction and infrared optical spectroscopy[C]//Proc. of SPIE, 1996, 70: 2554.
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LI Junbin, LIU Aiming, JIANG Zhi, KONG Jincheng, LI Dongsheng, LI Yanhui, ZHOU Xuchang, YANG Wen. Investigation of Energy Band Structures of InAs/GaSb and M Structure Superlattices[J]. Infrared Technology, 2021, 43(7): 622
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