Title :
Cold-cavity thresholds of microdisks with uniform and nonuniform gain: quasi-3-D modeling with accurate 2-D analysis
Author :
Smotrova, Elena I. ; Nosich, Alexander I. ; Benson, Trevor M. ; Sewell, Phillip
Author_Institution :
Inst. of Radio-Phys. & Electron., Nat. Acad. of Sci. of Ukraine, Kharkov, Ukraine
Abstract :
An electromagnetic analysis of thin-disk semiconductor resonators with uniform and nonuniform gain regions is presented. A "cold-cavity-with-gain" Maxwellian formulation, including accurate boundary and radiation conditions, is considered as an eigenvalue problem, for the real-valued parameters of frequency and threshold material gain. Although the well-known approximate effective-index method is used to reduce a three-dimensional (3-D) field problem to a two-dimensional (2-D) one, a rigorous formulation of the latter is retained. A quasi-3-D feature is provided through full account of the multiple-wave nature and dispersion of the effective index. Results obtained quantify the ultralow thresholds of the whispering-gallery modes and show the advantage of a ring-shaped gain region.
Keywords :
Maxwell equations; eigenvalues and eigenfunctions; microcavities; microdisc lasers; optical resonators; semiconductor device models; whispering gallery modes; Maxwellian formulation; cold-cavity threshold; effective-index method; eigenvalue problem; electromagnetic analysis; microdisks; thin-disk semiconductor resonators; whispering-gallery modes; Electromagnetic analysis; Finite difference methods; Frequency; Laser modes; Optical resonators; Quantum cascade lasers; Quantum dot lasers; Surface emitting lasers; Time domain analysis; Vertical cavity surface emitting lasers; Microdisk; threshold; whispering gallery modes;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2005.853848
