Title :
Critical design parameters for engineering broadly tunable asymmetric multiple-quantum-well lasers
Author :
Hamp, Michael J. ; Cassidy, Daniel T.
Author_Institution :
Dept. of Eng. Phys., McMaster Univ., Hamilton, Ont., Canada
Abstract :
Asymmetric multiple-quantum-well (AMQW) lasers are MQW lasers with QW´s of varying thickness and/or composition in a single active region. AMQW lasers can, if designed properly, exhibit broad spectral tuning ranges more than twice as large as those of conventional MQW lasers. In the paper, it is shown experimentally and theoretically that AMQW lasers only exhibit broad wavelength tuning ranges near a specific cavity length defined as the transition cavity length. The transition cavity length is a critical design parameter for engineering broadly tunable AMQW Lasers.
Keywords :
laser beams; laser cavity resonators; laser modes; laser tuning; optical design techniques; optical losses; quantum well lasers; MQW lasers; asymmetric multiple-quantum-well lasers; broad spectral tuning ranges; broad wavelength tuning ranges; broadly tunable asymmetric multiple-quantum-well lasers; critical design parameter; critical design parameters; single active regions; specific cavity length; transition cavity length; Design engineering; Gratings; Laser theory; Laser transitions; Laser tuning; Optical design; Quantum well devices; Quantum well lasers; Semiconductor lasers; Tunable circuits and devices;
Journal_Title :
Quantum Electronics, IEEE Journal of
