[1] Sim S K H,Liu H C,Shen A,et al.Effect of barrier width on the performance of quantum well infrared photodetector[J]. Infrared Physics & Technology,2001,42:115-121.

[2] Bastard G. Superlattice band structure in the envelope-function approximation [J],Phys Rev, 1981,B24:5693-5697.

[3] Smith D L,Mailhiot C.K-P theory of semiconductor superlattice electronic structure I formal results[J]. Phys Rev,1986,B33:8345-8359.

[4] Anemogiannis E,Glytsis E N,Gaylord K.Bound and Quasibound State Calculations for Biased/Unbiased Semiconductor quantum heterostructures[J].IEEE Journal of Quantum Electronics,1993,29:2731-2740.

[6] Yuanjian Xu,Ali Shakouri,Ampcon Yariv. Quantum interference effect and electric field domain formation in quantum well infrared photodetectors [J].Appl Phys Lett, 1995,66:3307-3309.

[7] Cheng X K,Zhou J M,Huang Q.The reflection and interference of electrons at the interface of superlattice [J].Science In China,2002,45:115-121.

[8] Kinch M A,Yariv A.Performance limitations of GaAs/A1GaAs infrared superlattices[J].Appl Phys Lett,1989,55(20):2093-2095.

[9] Adachi S.GaAs,AlAs,and AlxGa1-xAs:masterial parameters for use in research and device application[J].J Appl Phys,1985,58:R1-R29.

[10] Sirtori C,Capasso F,Faist J,et al.Quantum wells with localized states at energies above the barrier height:A fabry-Peror electron filter[J].Appl Phys Lett, 1992,61(8):898-900.