Semiconductor Physics, Quantum Electronics and Optoelectronics, 3 (1) P. 052-058 (2000).

References

1. M. Anbar, Ch. A. Brown, L. Milescu, and J. A. Babalola,Clinical Applications of DAT using a QWIP camera //Proceed. SPIE, 3698, pp. 93-102 (1999).
https://doi.org/10.1117/12.354508
2. A. G. Hargroder, J. E. Davidson, D. G. Luther, and J. F.Head, Infrared imaging of burn wounds to determine burn depth // Proceed. SPIE, 3698, pp. 103-108 (1999).
https://doi.org/10.1117/12.354509
3. P. R. Norton, Infrared detectors in the next millennium // Proc.SPIE, 3698, pp. 652-665 (1999).
https://doi.org/10.1117/12.354568
4. Ph. Tribolet, Ph. Hirel, A. Lussereau, and M. Vuillermet,Main results of SOFRADIR IRFPAs including IRCCD and IRCMOS detectors // Proceed. SPIE, 2552,pp. 369-380(1996).
5. .P . Potet, Design of thermal imaging systems with MCT-IRFPA. Design rules and performances. Application to Peltier cooled IRFPA camera, // Proceed. SPIE, 2552, pp.815-821(1994).
https://doi.org/10.1117/12.218282
6. .F . Sizov, Semiconductor superlattice and quantum well detectors, in: Infrared photon detectors, Ed. A. Rogalski, SPIEOptical Engineering Press, Bellingham-Washington, 1995 pp.561-624.
7. K. K. Choi, The Physics of Quantum Well Infrared Photodetectors, World Scientific, New Jersey, 1997.
https://doi.org/10.1142/3291
8. S. Solomon, A. Tribble, N. Lum, J. Venzon, G. Domingo, A.Hoffman, and M. Smith, High background, longwave Si:As IBC320×240 IR focal plane array // Proceed. SPIE, 2816, pp.161-168 (1994).
9. D.-S. Kim, S. R. Forrest, M. J. Lange, G. H. Olsen, and W. F.Kosonocky, A monolitically integrated InGaAs-InP p-i-n/JFET focal plane array // IEEE Photonics Technology Letters, 8(4),pp. 566-568 (1996).
https://doi.org/10.1109/68.491228
10. W.-J. Ho, M.-Ch. Wu, and Y.-K. Tu, Uniform and high performance of monolitically integrated 1x12 array of planar GaInAs photodiodes // IEEE Transactions on Electron Devices,44, pp. 559-564 (1997).
https://doi.org/10.1109/16.563358
11. R.L.Balcerac, Uncooled IR imaging: technology for the next generation // Proceed. SPIE, 3698, p.110-118 (1999).
https://doi.org/10.1117/12.354510
12. K. C. Liddiard, U. Ringh, and C. Jansson, Status of uncooled focal plane detector arrays for smart IR sensors // Proceed.SPIE, 2746, p.72-79 (1996).
https://doi.org/10.1117/12.243047
13. M. C. Foote, Temperature stabilization requirements for uncooled thermal detectors // Proceed. SPIE, 3698, pp. 344-350 (1999).
https://doi.org/10.1117/12.354536
14. K. Vural, L. J. Kozlowski, D. E. Cooper, C. A. Chen, G.Bostrap, C. Cabelli, J. M. Arias, J. Bajaj, K. W. Hodapp, D.N. B. Hall, W. E. Kleinhaus, G. G. Price, J. A. Pinter,2048x2048 HgCdTe focal plane arrays for astronomy applications // Proceed. SPIE, 3698, pp. 24-35 (1999).
https://doi.org/10.1117/12.354532
15. A. Manissadjian, P. Costa, Ph. Tribolet, G. Destefanis,HgCdTe performance for high operating temperatures // Proceed. SPIE, 3436, pp. 150-161(1998).
https://doi.org/10.1117/12.328011
16. M. Kimata, and N. Tubouchi, Schottky-Barrier Photoemissive Detectors, in: Infrared photon detectors, Ed. A. Rogalski, SPIE Optical Engineering Press, Bellingham-Washington, 1995,pp. 299-349.
17. A. Akiyama, T. Sasaki, T. Seto, A. Mori, R. Ishigaki, S. Itoh,N. Yutani, M. Kimata, and N. Tubouchi, 1040×1040 infrared charge sweep device imager with PtSi Schottky-barrier detectors // Optical Engineering, 33, pp. 64-71 (1994).
https://doi.org/10.1117/12.162277
18. J. L. Vampola, Readout Electronics for Infrared Sensors, in Electro-Optical Components, edited by W. D. Rogatto, SPIEOpt. Eng. Press, 1993, Ch.5.
19. E. Fossum, and B. Pain, Infrared readout electronics for space science sensors: State of the art and future directions // Proc.SPIE, 2020,pp. 262-285 (1994).
https://doi.org/10.1117/12.160549
20. J. T. Longo, D. T. Cheung, A. M. Andrews, C.C. Wang, and J. M. Tracy, Infrared focal planes in intrinsic semiconductor // IEEE Trans. Electron Devices, ED-25, 213 (1978).
https://doi.org/10.1109/T-ED.1978.19062
21. L. J. Kozlowski, and W. F. Kosonocky, Infrared Detector Arrays,in Handbook of Optics, edited by M. Boss, W. Van Stryland, D.R. Williams, and W. L. Wolfe, McGraw-Hill, New York, (1995).
22. F.F.Sizov, Yu.P.Derkach, V.P.Reva, and Yu.G.Kononenko. MCT sensor readout devices with charge current injection and preliminary signal treatment. Testing procedure // Opto-Electronics Review, 7, pp.327-338 (1999).
23. K. C. Chow, J. P. Rode, D. H. Seib, and J. D. Blackwell, Hybrid focal plane arrays // IEEE Trans. Electron Devices, ED-29, 3-13(1982).
https://doi.org/10.1109/T-ED.1982.20651
24. L. J. Kozlowski, W. V. Mclevige, S. A. Cabelli, A. H. B.Vanderwyck, D. E. Copper, E. R. Blazejewski, K. Vural, and W.Tennant, Attainment of high sensitivity at elevated operating temperatures with staring hybrid HgCdTe on sapphire focal plane arrays // Optical Engineering, 33, 704-715 (1994).
https://doi.org/10.1117/12.163405
25. P. Nicolas, Ph. Pantigny, J. Cluzel, M. Vilain, J. L. Ouvrier Buffet, and J. J. Yon, An in pixel self-calibrating IR FPA // Proc.SPIE, 2269, 406-416 (1994).
https://doi.org/10.1117/12.188657
26. J. V. Gumenjuk-Sichevskaya, and F. F. Sizov, Currents in Hg1-xCdxTe photodiodes // Semicond. Sci. Technol., 14,pp.1124-1131 (1999).
https://doi.org/10.1088/0268-1242/14/12/320
27. R.A. Rotolante, Why the IR detector market is in flux // Laser Focus World, October (1999), pp. 65-68.