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    Journals >Journal of Infrared and Millimeter Waves >Volume 37 >Issue 3 >Page 290 > Article
    • Journal of Infrared and Millimeter Waves
    • Vol. 37, Issue 3, 290 (2018)
    Determination of optical constants of HgCdTe, and the broadband AR coating design
    FAN Hua1、2、*, ZHANG Wen-Jie1, MA Xiao-Feng3, LIAO Qing-Jun1, and HU Xiao-Ning1
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
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    DOI: 10.11972/j.issn.1001-9014.2018.03.007 Cite this Article
    FAN Hua, ZHANG Wen-Jie, MA Xiao-Feng, LIAO Qing-Jun, HU Xiao-Ning. Determination of optical constants of HgCdTe, and the broadband AR coating design[J]. Journal of Infrared and Millimeter Waves, 2018, 37(3): 290 Copy Citation Text show less
    References

    [1] Ramachandran B.,Justice C O.,Abrams M J. Land Remote Sensing and Global Environmental Change[M]. New York: Springer,2011:59-82.

    [2] Antoni Rogalski. Progress in focal plane array technologies[J].Progress in Quantum Electronics, 2012, 36:342-473.

    [3] Starr W J. Analysis of Slewing and Attitude Determination Requirements for CTEx[R]. Ohio:Air Force Institute of Technology,2010.

    [4] Leroy C ,Fieque B, Jamin N, et al. SWIR space detectors and future developments at SOFRFADIR[C]. Proc of SPIE,2013,8889:8889A-1-8889A-13.

    [5] Manesse A.B, Jamin N, Delannoy A, et al. Space activity and programs at SOFRADIR[C]. Proc of SPIE,2016,10000:10000N-1-10000N-19.

    [6] D’Souza A I, Robinson E W, Stapelbroek, M G, et al. Visible to SWIR Response of HgCdTe HDVIP Detectors [C]. Proc of SPIE,2009,7298:72981X-1-72981X-7.

    [7] Chorier P, Tribolet P, Destefanis G. From visible to infrared, a new detector approach[C]. Proc of SPIE,2006,6206:620601-1-620601-12.

    [8] Hougen C.A.Model for infrared absorption and transmission of liquid-phase epitaxy HgCdTe[J]. Journal of Applied Physics,1989, 66(8):3763-3766.

    [9] Chu J H, Mi Z Y, Tang D Y. Band-to-band optical absorption in narrow-gap Hg1-xCdx Te semiconductors[J]. Journal of Applied Physics,1992, 71(8):3955-3961.

    [10] Moazzami K, Phillips J, Lee D, et al. Detailed Study of above bandgap optical absorption in HgCdTe[J]. Journal of Electronic Material,2005, 34(6):773-778.

    [11] Mouzali S, Lefebvre S, Rommeluère S, et al. Prediction of HgCdTe spectral inhomogeneities based on optical and material properties[J]. Infrared Physics and Technology,2015,71:356-362.

    [12] Leveque G, Renard-Villachon Y. Determination of optical constants of thin films from reflectance spectra[J]. Applied Optics,1990,29:3207-3212.

    [13] Edward D.Palik. Handbook of Optical Constants of Solids[M]. New York :Academic Press,1997:611-613.

    [14] Mary Debenham. Refractive indices of zinc sulfide in the 0.405-13um wavelength range[J]. Applied optics,1984,23(14): 2238-2239.

    [15] Bezuidenhout D F, Clarke K D. The optical properties of YF3 Films[J]. Thin Solid Films,1987,155:17-30.

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    FAN Hua, ZHANG Wen-Jie, MA Xiao-Feng, LIAO Qing-Jun, HU Xiao-Ning. Determination of optical constants of HgCdTe, and the broadband AR coating design[J]. Journal of Infrared and Millimeter Waves, 2018, 37(3): 290
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