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Developments of narrow gap semiconductor physics have been closely related to the development of the science and technology of infrared optical electronics in which narrow gap semiconductors have played a vital role in detectors and emitters, and other high speed devices. Antimony-based technology is very promising for low voltage millimeter-wave (mm-wave) integrated circuits (ICs), as well as very highspeed, low-power digital ICs. Among the many potential applications are digitally beam-steered phased array receivers, particularly those deployed in space; 80-160 Gbit/s optical communication…mehr

Produktbeschreibung
Developments of narrow gap semiconductor physics have been closely related to the development of the science and technology of infrared optical electronics in which narrow gap semiconductors have played a vital role in detectors and emitters, and other high speed devices. Antimony-based technology is very promising for low voltage millimeter-wave (mm-wave) integrated circuits (ICs), as well as very highspeed, low-power digital ICs. Among the many potential applications are digitally beam-steered phased array receivers, particularly those deployed in space; 80-160 Gbit/s optical communication systems; unmanned reconnaissance vehicles; and mobile, battery-powered systems.
Autorenporträt
Ali Hussain Abdalrazzaq Jalaukhan.I was born in Kerbala , IRAQ at 1/1/1962.I have got B.Sc physics, university of Mosul, Iraq, 1983.M.Sc. solid state physics, university of Baghdad, Iraq , 1991 .Ph.D physics of thin films, university of Baghdad, Iraq, 2012.Now I am a Lecturer of medical physics at College of Medicine,Kerbala University