Title :
Circularly symmetric distributed feedback laser: coupled mode treatment of TE vector fields
Author :
Erdogan, Turan ; Hall, Dennis G.
Author_Institution :
Inst. of Opt., Rochester Univ., NY, USA
fDate :
3/1/1992 12:00:00 AM
Abstract :
The vector orientation of transverse electric (TE) fields in deriving coupled mode equations for radially outward- and inward-going modes in a circular waveguide diffraction grating is treated. The equations are derived for cylindrical waves in a system that is translationally invariant along the cylinder axis; the derivation is then extended to the waveguide geometry. The coupled mode equations are used to describe the operation of the circularly symmetric distributed feedback (DFB) laser. While predicting a similar dependence of the laser threshold gain on an azimuthal mode order to that found by a simpler, scalar-field treatment, the vector-field treatment predicts a fundamental difference in the location of the cavity resonances. The circular DFB laser is expected to lase in multiple azimuthal modes but maintain a relatively narrow overall spectral width
Keywords :
distributed feedback lasers; laser modes; laser theory; semiconductor junction lasers; vectors; azimuthal mode order; cavity resonances; circular waveguide diffraction grating; circularly symmetric distributed feedback laser; coupled mode equations; cylinder axis; cylindrical waves; inward-going modes; laser threshold gain; scalar-field treatment; spectral width; transverse electric vector fields; vector orientation; vector-field treatment; waveguide geometry; Diffraction gratings; Distributed feedback devices; Equations; Geometrical optics; Laser feedback; Laser modes; Optical coupling; Resonance; Tellurium; Waveguide lasers;
Journal_Title :
Quantum Electronics, IEEE Journal of
