A comparison of mercury cadmium telluride photoconductive detectors for 10.6 micron detection as a function of temperature

Details A comparison of mercury cadmium telluride photoconductive detectors for 10.6 micron detection as a function of temperature A comparison of mercury cadmium telluride photoconductive detectors for 10.6 micron detection as a function of temperature

Sep 1990

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1990spie.1308..218k&link_type=abstract

IN: Infrared detectors and focal plane arrays; Proceedings of the Meeting, Orlando, FL, Apr. 18, 19, 1990 (A91-36726 15-35). Bel

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Applications

Infrared Detectors, Mercury Cadmium Tellurides, Photoconductive Cells, Photovoltaic Cells, Temperature Effects, Carrier Lifetime, Irradiance, Pulsed Lasers, Pyroelectricity, Time Lag

Scientific paper

Mercury cadmium telluride (MCT) photoconductive detectors which detect radiation in the 10.6 micron spectral region are considered with respect to specific applications at varying temperatures. Requirements such as sensitivity, time constant, and cooling constraints are discussed. MCT detectors employed in the 10 to 11 micron spectral region successfully detect fast laser pulses.

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