Title :
Computing simulation optical modes for VCSEL device
Author :
Streiff, M. ; Witzig, A. ; Fichtner, W.
Author_Institution :
Integrated Syst. Lab., Swiss Fed. Inst. of Technol., Zurich, Switzerland
fDate :
8/1/2002 12:00:00 AM
Abstract :
The authors discuss the comprehensive computation of optical modes in the context of physics-based semiconductor laser device simulation. In this approach a generic frequency domain finite element (FE) formulation of the dielectric optical resonator problem is used. The FE expansion of a realistic vertical-cavity surface-emitting laser (VCSEL) device yields very large sparse generalised complex non-Hermitian eigenproblems. In the course of solving the device equations self-consistently over the entire operation range of the laser device, a sequence of many such large eigenproblems has to be solved. A distinct property of this sequence is that each eigenproblem can be seen as the perturbed version of the former in the sequence. This fact is exploited by using an iterative numerical method that uses the solution of one eigenproblem to solve the next
Keywords :
distributed Bragg reflector lasers; eigenvalues and eigenfunctions; finite element analysis; laser cavity resonators; laser modes; semiconductor device models; semiconductor lasers; surface emitting lasers; VCSEL; complex nonHermitian eigenproblems; computing optical modes; dielectric optical resonator problem; generic frequency domain finite element formulation; iterative numerical method; optical modes; perturbed version; physics-based semiconductor laser device simulation; simulation VCSEL device; vertical-cavity surface-emitting laser;
Journal_Title :
Optoelectronics, IEE Proceedings -
DOI :
10.1049/ip-opt:20020527
