Title :
The extra differential gain enhancement in multiple-quantum-well lasers
Author :
Zhao, B. ; Chen, T.R. ; Yariv, A.
Author_Institution :
Thomas J. Watson Sr. Lab. of Appl. Sci., California Inst. of Technol., Pasadena, CA, USA
Abstract :
By accounting for the unavoidable thermal population of injected carriers in the optical confining layers it is found that the use of MQW´s (multiple quantum wells) as active regions actually leads to an extra increase in differential gain. Specifically, the maximum differential gain increases with the number of wells in the QW structures. The transparency current density in the MQW structure does not scale as the number of QWs. These conclusions are at variance with presently accepted theory and have major implications for the design of high-speed, low-threshold semiconductor lasers.<>
Keywords :
carrier mobility; laser theory; semiconductor junction lasers; MQW well number; MQW´s; active regions; diode laser design; extra differential gain enhancement; high-speed; injected carriers; low-threshold semiconductor lasers; maximum differential gain; multiple-quantum-well lasers; optical confining layers; thermal population; transparency current density; Carrier confinement; Charge carrier density; Frequency; High speed optical techniques; Laser theory; Laser transitions; Optical modulation; Quantum well devices; Quantum well lasers; Semiconductor lasers;
Journal_Title :
Photonics Technology Letters, IEEE
