Title :
Branching processes in quantum electronics
Author :
Teich, Malvin Carl ; Saleh, Bahaa E A
Author_Institution :
Dept. of Electr. & Comput. Eng., Boston Univ., MA, USA
Abstract :
Noise and random fluctuations play an important role in quantum electronic devices and systems. Such fluctuations reside, for example, in the random creation of photons in optical amplifying media and in the generation of electron-hole pairs in ionizing regions of semiconductor devices. We provide an overview of the fundamental random branching processes that underlie optical and electronic gain. We describe branching processes as concatenations of basic elements that comprise filtered Poisson processes (shot noise) driving secondary Poisson processes. In the presence of feedback, these elementary processes become self-exciting in nature; they are then suitable for characterizing squeezed light and sub-Poisson photon emissions.
Keywords :
fluctuations; optical feedback; optical noise; optical squeezing; photon counting; quantum optics; random processes; reviews; shot noise; stochastic processes; basic elements; branching processes; concatenations; electron-hole pairs; electronic gain; elementary processes; feedback; filtered Poisson processes; fundamental random branching processes; ionizing regions; noise; optical amplifying media; optical gain; overview; quantum electronic devices; quantum electronic systems; quantum electronics; random fluctuations; random photon creation; secondary Poisson processes; self-exciting processes; semiconductor devices; shot noise; squeezed light; sub-Poisson photon emissions; Fluctuations; Laser feedback; Optical amplifiers; Optical devices; Optical feedback; Optical filters; Optical noise; Quantum cascade lasers; Semiconductor device noise; Stimulated emission;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/2944.902200
