Title :
Toward Silicon-Based Lasers for Terahertz Sources
Author :
Lynch, Stephen A. ; Paul, Douglas J. ; Townsend, Paul ; Matmon, Guy ; Suet, Zhang ; Kelsall, Robert W. ; Ikonic, Zoran ; Harrison, Paul ; Zhang, Jing ; Norris, David J. ; Cullis, Anthony G. ; Pidgeon, Carl R. ; Murzyn, Pawel ; Murdin, Ben ; Bain, Mike ; G
Author_Institution :
Cavendish Lab., Cambridge Univ.
Abstract :
Producing an electrically pumped silicon-based laser at terahertz frequencies is gaining increased attention these days. This paper reviews the recent advances in the search for a silicon-based terahertz laser. Topics covered include resonant tunneling in p-type Si/SiGe, terahertz intersubband electroluminescence from quantum cascade structures, intersubband lifetime measurements in Si/SiGe quantum wells, enhanced optical guiding using buried silicide layers, and the potential for exploiting common impurity dopants in silicon such as boron and phosphorus to realize a terahertz laser
Keywords :
Ge-Si alloys; boron; electroluminescence; electron beam pumping; impurities; phosphorus; quantum cascade lasers; silicon; submillimetre wave generation; submillimetre wave lasers; Si-SiGe; Si-SiGe quantum wells; Si-SiGe:B; Si-SiGe:P; Si-SiGe:Si; electrical pumping; impurity dopants; intersubband electroluminescence; intersubband lifetime measurements; optical guiding; p-type Si-SiGe; quantum cascade structures; resonant tunneling; silicon-based lasers; terahertz electroluminescence; terahertz laser; terahertz sources; Electroluminescence; Frequency; Germanium silicon alloys; Laser excitation; Lifetime estimation; Pump lasers; Quantum cascade lasers; Quantum well lasers; Resonant tunneling devices; Silicon germanium; Boron; far infrared; germanium; impurity; lifetime; phosphorus; pump-probe; quantum cascade laser; resonant tunneling diode (RTD); silicide; silicon; terahertz; waveguide;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2006.884069
