Title :
Spontaneous emission in multilayer semiconductor structures
Author :
Hooijer, Christa ; Li, Gao-xiang ; Allaart, Klaas ; Lenstra, Daan
Author_Institution :
FOM, Utrecht, Netherlands
fDate :
9/1/2001 12:00:00 AM
Abstract :
A theoretical analysis of spontaneous emission from a quantum well in dielectric multilayer structures, especially the influence of dielectric geometry on the relative intensities of guided and radiation modes and on polarization, is presented. We first discuss a relatively simple three-layer case, and subsequently a technologically more interesting five-layer structure that has been proposed for a high-power laser. The expression for the partial as well as total, emission rates is derived within a broader framework of coupled Heisenberg equations of motion for charge carriers and the quantized electromagnetic field. Thereby, the explicit mode decomposition of the Green tensor is avoided. Still, the beta factor for individual guided modes, which is a relevant quantity for the lasing threshold of a device, can be identified and a competition between modes is shown to exist in specific cases
Keywords :
Green´s function methods; laser modes; laser theory; optical multilayers; quantum optics; quantum well lasers; semiconductor quantum wells; spontaneous emission; Green tensor; beta factor; charge carriers; competition; coupled Heisenberg equations of motion; dielectric geometry; dielectric multilayer structures; explicit mode decomposition; five-layer structure; guided modes; high-power laser; individual guided modes; lasing threshold; multilayer semiconductor structures; partial emission rates; polarization; quantized electromagnetic field; quantum well; radiation modes; relative intensities; specific cases; spontaneous emission; three-layer case; total emission rates; Dielectrics; Electromagnetic coupling; Equations; Geometrical optics; Laser modes; Nonhomogeneous media; Polarization; Quantum well lasers; Relativistic quantum mechanics; Spontaneous emission;
Journal_Title :
Quantum Electronics, IEEE Journal of
