Title :
Simple design of edge-emitting diode laser to overcome thermal lens effect
Author :
Elkin, N.N. ; Napartovich, A.P. ; Vysotsky, D.V.
Author_Institution :
SRC RF Troitsk Inst. for Innovation & Thermonucl. Res., Troitsk, Russia
Abstract :
Parameters of two-element, index-guided laser structure providing single-mode operation at high power are found numerically. 3-D numerical code has been implemented, which takes into account carrier diffusion in the quantum well, edge radiation losses and thermal lens effect. Within the simulation, higher-order optical modes on a `frozen background´ are computed. The onset of threshold for higher-order modes puts an upper limit on the range for stable, single-mode operation. Then, for the 5 μm-core and 2 mm-length device, stable, single-mode operation up to Watt-level output power is predicted with laser efficiency growing as a function of drive currents.
Keywords :
laser modes; numerical analysis; optical design techniques; optical losses; quantum well lasers; thermal lensing; 3D numerical code; carrier diffusion; edge radiation losses; edge-emitting diode laser design; higher-order optical modes; laser efficiency; laser output power; quantum well; single-mode operation; size 2 mm; size 5 mum; thermal lens effect; two-element index-guided laser structure; Diode lasers; Laser modes; Mathematical model; Numerical models; Optical reflection; Optical waveguides; Semiconductor lasers;
Conference_Titel :
Numerical Simulation of Optoelectronic Devices (NUSOD), 2011 11th International Conference on
Conference_Location :
Rome
Print_ISBN :
978-1-61284-876-1
Electronic_ISBN :
2158-3234
DOI :
10.1109/NUSOD.2011.6041131
