Title :
Proposal and finite-difference time-domain simulation of whispering gallery mode microgear cavity
Author :
Fujita, Masayuki ; Baba, Toshihiko
Author_Institution :
Div. of Electr. & Comput. Eng., Yokohama Nat. Univ., Japan
fDate :
10/1/2001 12:00:00 AM
Abstract :
The existence of many high Q whispering gallery modes in microdisk and microcylinder lasers seriously affects the internal efficiency in lasing operation and disturbs the enhancement of the spontaneous emission factor. To suppress these modes except for one lasing mode, we propose the microgear cavity having a grating with the same period as that of the mode standing wave. A finite-difference time-domain simulation theoretically demonstrates that the microgear selects one resonant mode that satisfies the unique condition regarding the mode order and the phase. This paper describes the dependence of the mode behavior on some structural parameters, and concludes that a deep grating, which seems to be possible in an experiment, allows for sufficient suppression of any types of nonlasing modes and the enhancement of the Q factor of the lasing mode
Keywords :
Q-factor; distributed feedback lasers; finite difference time-domain analysis; laser cavity resonators; laser theory; microcavity lasers; microdisc lasers; spontaneous emission; DFB laser; Q-factor enhancement; deep grating; finite-difference time-domain simulation; internal efficiency; lasing operation; microcylinder lasers; microdisk lasers; microgear cavity; mode order; mode standing wave; nonlasing modes; resonant mode; spontaneous emission factor enhancement; structural parameters; whispering gallery mode microgear cavity; Finite difference methods; Gratings; Laser modes; Laser theory; Proposals; Resonance; Spontaneous emission; Structural engineering; Time domain analysis; Whispering gallery modes;
Journal_Title :
Quantum Electronics, IEEE Journal of
