[1] Rotolante R A.Why the IR detector market is in flux[J].Laser Focus Word, 1999,35(10):65.
[2] Kadri Vural, Lester J Kozlowski, Donald E Cooper,et al. 2048× 2048 HgCdTe focal plane arrays for astronomy applications[A].SPIE[C]. 1999,3698.24-35.
[3] Rockwell Scientific. ROIC reference table[EB/OL]. http://www.rsc.rockwell.com/mctfpa, 2004-09-24.
[4] Arvind I D'Souza,Larry C Dawson, Dan J Berger, et al. HgCdTe multispectral infrared FPAs for remote sensing applications[A].SPIE [C]. 1998,3498.192 -202.
[5] Montroy J T, James D Garnett, Scott A Cabelli, et al. Advanced imaging sensors at Rockwell Scientific Company[A]. Proceedings of SPIE[C]. 2003,4721. 212-226.
[6] James R Buss. Staring infrared panoramic sensor (SIRPS)[A].SPIE [C]. 1998,3436.743 - 762.
[7] Philippe M Tribolet, Patricia Costa, Fillon P, et al. Large staring arrays at SOFRADIR[A].Proceedings of SPIE[C]. 2003,4820.418-428.
[8] Jean-Paul Chnmonal, Eric Mottin, Patrick Audebert,et al.1500-element linear MWIR and LWIR HgCdTe arrays for high-resolution imaging[A].SPIE[C]. 1997,3221.384-394.
[9] Jean-Pierre Chatard. LW MCT IRFPA cost optimization[A].SPIE [C]. 1999,3698.407-419.
[10] Castelein P.New generation of long linear butted HgCdTe arrays for high resolution infrared imaging[A]. Proceedings of SPIE[C].2003,4820.252-259.
[11] Rainer Breiter,Wolfgang A Cabanski, Koch R,et al. Focal plane arrays: MCT, quantum wells,PtSi[A]. SPIE[C].1998,3436.359-374.
[12] Walter R Dyer,Meimei Z Tidrow. Applications of MCT and QWIP to ballistic missile defense[A].SPIE[C]. 1998, 3379.434-440.
[13] Herbert K Pollehn, Jack S Ahearn. Multidomain smart sensors [A]. SPIE[C]. 1999,3698.420 -426.
[14] James P Kraus,James P Dietz,Jean-Pierre Chatard,et al. Development and demonstration of the SOFRADIR 480×4 infrared FPA for the LOSAT second-generation FLIR[A].SPIE[C].1994,2269.524-536.
[15] Destefanis G L.HgCdTe infrared diode arrays[J]. Semicon Sci Technol,1991,6(12C): C88-C92.
[16] Tse Tung,DeArmond L V,Herald R F,et al. State of the art of Hgmelt LPE HgCdTe at Santa Barbara Research Center[A].SPIE[C].1992,1735. 109-134.
[17] Charles A Cockrum. HgCdTe material properties and their influence on IR FPA performance[A]. SPIE[C].1996,2685.2-15.
[18] Albert M Fowler, Ian Gatley, Paul McIntyre, et al. ALADDIN:the 1024×1024 InSb array-design, description, and results[A].SPIE[C].1996, 2816. 150-160.
[19] Mark A Goodnough,Larry J Hahn,Robert B Jones,et al. Flexible 640×512 InSb FPA architecture[A].SPIE[C].1997,3061.140-149.
[20] Moshe Zucker,Igor Pivnic,Eyal Malkinson,et al.Long, mid-wave wave infrared detector with time delayed integration[A]. Proceedings of SPIE[C]. 2003, 4820. 580-592.
[21] Michel E,Mohseni H,Wojkowski Let al. Detectors and focal plane arrays on GaAs, Si, and Al2O3 substrates[J].Mat Res Soc Symp Proc, 1997,450: 79 - 84.
[22] Andrew D Johnson.High-performance InSb/In1-xAlxSb focal plane detector arrays grown by MBE [A]. SPIE[C]. 1999, 3629.288-297.
[23] Rainer Breiter, Wolfgang A Cabanski,Koch R,et al. High-resolution QWIP and MCT FPA modules at AIM[A]. SPIE[C].1999,3698.397-406.
[24] Harald Schneider,Joachim Fleissner,Robert Rehm, et al.High resolution QWIP FPAs for the 8~12 μm and 3~5μm regimes[A].Proceedings of SPIE[C]. 2003, 4820. 297-305.
[25] Harald Schneider, Joachim Fleissner, Robert Rehm, et al. Characterization of QWIP(10~16μm) broad band FPA[A]. Proceedings of SPIE[C]. 2003, 4820. 273-281.
[26] William A Beck,Thomas S Faska. Current status of quantum well focal plane arrays[A]. SPIE[C].1996, 2744. 193-206.
[27] Daniel F Murphy,Michael Ray,Richard Wyles,et al. High sensitivity 25 μm microbolometer FPAs[A]. Proceedings of SPIE[C].2003, 4820. 208-219.
[28] Yang Zhao, Jongeun Choi, Roberto Horowitz, et al. Characterization and performance of optomechanical uncooled infrared imaging system[A]. Proceedings of SPIE[C]. 2003,4820.164-174.
