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Supplier: IHS Markit Engineering & Product Design
Description: MERCURY CADMIUM TELLURIDE: GROWTH PROPERTIES AND APPLICATIONS
Standards and Technical Documents - American National Standard for Measurement Procedures for Resolution and Efficiency of Wide-Bandgap Semiconductor Detectors of Ionizing Radiation -- N42.31-2003
Description: Standard measurement and test procedures are established for wide-bandgap semiconductor detectors such as cadmium telluride (CdTe), cadmium-zinc-telluride (CdZnTe), and mercuric iodide (HgI2) that can be used at room temperature for the detection and quantitative
Supplier: Thin-Films Research, Inc.
Description: Custom Designed Optical Coatings : Using computer-aided design and leading-edge technology, we offer state-of-the-art solutions to your optical needs, covering: the Visible, the Ultraviolet, and the Infrared regions of the spectrum. We also design & fabricate application specific optical coatings on
- Coating: Antireflection, Dielectric, Metal
- Regional Preference: North America, United States Only, Northeast US Only
- Substrate Materials: Fiber, Glass
- Wavelength Range: UV, Visible, IR
Supplier: Sofradir - EC, Inc.
Description: High performance cooled mercury cadmium telluride (MCT) detector dewar/cooler assemblies (IDDCAs). Available for SW, MW, LW and VLW infrared imaging in small, medium and large array formats.
Supplier: InfraTec GmbH
Description: resolution better than 0.025 K In regard to InfraTec‘s wide range of products, the ImageIR® 9500 thermographic camera offers an alternative especially for the international market. Its highly sensitive cooled focal plane array photon detector is based on mercury cadmium
- Accuracy: 1 ±% Full Scale
- Ambient Temperature Range: -4 to 122 F
- Cooling: Active Built-in Cryogenic Cooling
- Detector Type: Array
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Interview with Paul W. Kruse on the Early History of HgCdTe, Conducted on October 22, 1980
This paper presents an interview with Dr Paul W. Kruse (1927–2012) on the early history of the semiconductor alloy mercury cadmium telluride (HgCdTe or Hg1ÀxCdxTe) at the Honeywell Corporate Research Center near Min- neapolis, Minnesota.
Micro and Nanophotonics for Semiconductor Infrared Detectors
Photonic detectors have been ruling the market for several decades, mostly of intrinsic type, based on indium antimonide and mercury cadmium telluride .
High-Operating-Temperature Infrared Photodetectors
W. F. H. Micklethweite, “The crystal growth of mercury cadmium telluride ,” Semiconductors and Semimetals, Vol. 18, R. K. Willardson and A. C. Beer (Eds.), Academic Press, New York, 48–119 (1981).
Bulk Crystal Growth of Electronic Optical and Optoelectronic Materials Complete Document
… zochralski light emitting diode large-eddy simulation locally oxidised silicon liquid phase epitaxy large-scale integration laser scan mass spectrometry laser-scattering tomography local shaping technique localised vibrational modes long-wavelength infrared molecular beam epitaxy mercury cadmium telluride metal-insulator-semiconductor metal …
J.P. Laurenti, J. Camassel, A. Bouhemadou, B. Toulouse, R. Legros, A. Lusson, “Temperature dependence of the fundamental absorption edge of mercury cadmium telluride ”, J. Appl. Phys. 67 p6454 (1990) 7.
Springer Handbook of Crystal Growth
Mercury cadmium telluride has been of great interest as a material for infrared (IR) detection since it was first grown almost 50 years ago and has dominated the market for more than two decades [32.2].
Device Physics of Narrow Gap Semiconductors
1987) The activation energy of copper shallow acceptors in mercury cadmium telluride .
Thirty years of HgCdTe technology in Israel
 Catagnus, P. C. and Baker, C. T., "Passivation of mercury cadmium telluride semiconductor surfaces by anodic oxidation", US Pat. No. 3,977,018 (1976).
Thin film cadmium telluride, zinc telluride, and mercury zinc telluride solar cells
Duringthe past fewyears, the metalorganicchemical vapordeposition (MOCVD) technique has been used extensively for the epitaxial growth of II-VI compounds, and mercury cadmium telluride in particular, on single crystalline-,_ubstrates.
The Wonder of Nanotechnology: Quantum Optoelectronic Devices and Applications
at 50–60 kHz, and the PL signal was collected and collimated using parabolic gold-coated mirrors and then detected by an mercury cadmium telluride (MCT) detector.