[1] Zandian M,Chen A C,Edwall D D,et al.p-type arsenic doping of Hg1 -x Cdz Te by molecular beam epitaxy[J].Appl.Phys.Left.1997,71,2815.

[2] Shi X H,Rujirawat S,Ashokan R,et al.Ionization energy of aceeptors in As-doped HgCdTe grown by molecular beam epitaxy[J].Appl.Phys.Lett.1998,73,638.

[3] Selamet Y,Grein C H,Lee T S,et al.Electrical properties of in situ As doped Hg1-xCdx Te epilayers grown by molecular beam epitaxy[J].J.Vac.Sci.Technol.B,2001,19,1488.

[4] Swartz C H,Tompkins R P,Giles N C,et al.Infrared pho-toreflectance of InAs[J].J.Electronic Mat.2004,33,728.

[7] Hunter A T,McGill T C.Luminescence studies of HgCdTe alloys[J].J.Vac.Sci.Technol.1982,21,205.

[8] Shen H,Parayanthal P,Liu Y F,et al.Pollak,New nor-malization procedure for modulation spectroscopy[J].Rev.Sci.Instrum.1987,58,1429.

[9] Pollak F H,Shen H.Modulation spectroscopy of semicon-ductors:bulk/thin film,microstroctures,surfaces/inter-faces and devices[J].Mater.Sci.Eng.1993,10,275.

[10] Klar P J,Rowland G,Thomas P J S,et al.Photomodulat-ed reflectance study of In,Ga1-xAs/GaAs.AlAs microcavi-ty vertical-cavity surface emitting laser structures in the weak-coupling regime:The cavity/ground-state-exciton resonance[J].Phys.Rev.B,1999,59,2894.

[11] Shao J,DOemen A,Baars E,et al.Photoluminescence and absorption identification of Ti3+ in zinc telluride[J],Semicond.Sci.Technol.2002,17,1213.

[12] Misiewicz J,Kudrawiec R,Ryczko K,et al,Photoreflec-tance investigations of the energy level structure in GaIn-NAs-based quantum wells[J].J.Phys.:Condens.Mat-ter,2004,16,S3071.

[13] Shao J,LaX,Yue F,et al,Magnetophotolumineaconce study of Gax In1-x,P quantum wells with CuPt-type long-range ordering[J].J.Appl.Phys.2006,100,053522.

[14] Shao J,Lu W,Lü X,et al.Modulated photoluminescence spectroscopy with a step-scan Fourier transform infrared spectrometer[J].Rev.Sci.Instrum.2006,77,063104.

[15] Hoses T J C,Merrick M,Murdin B N.A new Fourier transform photo-modulation spectroscopic technique for narrow band-gap materials in the mid-to far-infra-red[J].Phys.Star.Sol.(a),2005,202,1233.

[16] Shao J,Yna F,Lü X,et al.Photomodulated infrared spectroscopy by a step-scan Fourier transform infrared spectrometer[J].Appl.Phys.Lett.2006,89,182-121.

[17] Bignazzi A,GriUi E,Radice M,et al.Fourier transform spectroscopy applied to photohminescence:Advantages and warnings[J],Rev.Sci.Instrum.1996,67,666.

[18] Smith B C.Fundamentals of Fourier Transform Infrared Spectroscopy[M].Florida:CRC Press,Inc:1996.

[19] Williams R.Spectroscopy and the Fourier Transform:An interactive tutorial[M].New York:VCH,1996.

[20] Reisinger A R,Roberts R N,Chinn S R,et al.Photolu-minescence of infrared-sensing materials using an FTIR spectrometer[J].Rev.Sci.Instrum.1989,60,82.

[21] Fuchs F,Lusson A,Wagner J,et al.Double modulation techniques in fourier transform infrared photolumineacence[J].Proc.SPIE,1989,1145,323.

[22] Chang Y,Chu J H,Tang W G,et al.Photohminescence investigation on impurity behavior in Sb-doped HgCdTe[J],Infrared Phys.Technol.,1996,37,747.

[23] Shao J,Doemen A,Winterhoff R,et al.Ordering param-eter and band-offset determination for ordered Ga,xIn1-xP/(Al0.66Ga0.34)yIn1-yP quantum wells[J].Phys.Rev.B,2002,66,035109.

[24] Lin C H,Singer K E,Evans-Freeman J H,et al.Infrared photoreflectance of InAs[J].Semicond.Sci.Technol.1997,12,1619.

[25] Munoz M,Pollak F H.Temperature dependence of the en-ergy and broadening parameter of the fundamental band gap of GaSb and Ga1-xInx AsySb1-y/GaSb (0.07 《 ～x 《 ～0.22,0.05 《 ～y《 ～0.19) quaternary alloys using infrared photoreflectance[J].Phys.Rev.B,2000,62,16600.

[26] Shao J,Lu W,Yue F,et al.Photoreflectance spectrosco-py with a step-scan Fourier-trausform infrared spectrome-ter:Technique and applicatious[J].Rev.Sci.Instrum.2007,78,013111.

[27] Johnson T J,Zachmann G,Introduction to Step-Scan FTIR[M].Ettlingen:Bruker Optik.

[28] Jiang E Y.Advanced FT-IR Spectroscopy[M],Madison:Thermo Electron Corporation,2003.

[29] Chu J H,Xu S Q,Tang D Y.Energy gap versus alloy composition and temperature in Hg1 x CdxTe[J].Appl.Phys.Lett.1983,43,1064.

[30] Shen H,Dutta M.Sweeping photoreflectance spectroscopy of semiconductors[J].Appl.Phys.Lett.1990,57,587.

[31] Yah D,Qiang H,Pollak F H.A new offset technique for suppression of spurious signals in photoreflectance spectra[J].Rev.Sci.Instrum.1994,65,1988.

[32] Merrick M,Hosea T J C,Murdin B N,et al.Bandgap bowing in InSb1-xNx investigated with a new Fourier traus-form modulated spectroscopy technique for the mid-infrared[J].AIP Conf.Proc.2005,772:295-296.

[33] Berding M A,van $chilfgaarde M A.Sher.First-princi-ples calculation of native defect densities in Hg0.8 Cd0.2 Te[J].Phys.Rev.B,1994,50,1519.