Naslov
Simulation and analysis of 1.55 μm double-fused vertical-cavity lasers

Autori
Piprek, Joachim ; Babić, Dubravko I. ; Bowers, John E.

Izvornik
Journal of applied physics (0021-8979) 81 (1997), 8; 3382-3390

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
Vertical cavity surface emitting lasers ; Optical fiber devices

Sažetak
Using a comprehensive numerical model, we analyze the first long-wavelength (1.55 μμm) vertical-cavity surface- emitting lasers operating continuous-wave at room temperature (up to 33 °C). These double-fused lasers employ strain-compensated InGaAsP multi-quantum wells sandwiched between GaAs/AlGaAs distributed Bragg reflectors that are fused on both sides of the InP spacer. The two-dimensional model includes drift and diffusion of electrons and holes, finite-element thermal analysis, calculation of the internal optical field at threshold, and k⋅⋅p band structure computations. The simulation shows excellent agreement with a large variety of experimental characteristics. Internal laser parameters like optical losses and injection efficiency are obtained. The thermal conductivity of the multilayer mirror is found to be only one third of the value expected. Temperature dependent absorption and Auger recombination within the active region as well as lateral leakage currents are identified as dominating loss mechanisms. The analysis shows great potential for high-temperature operation of double-fused vertical-cavity lasers.

Izvorni jezik
Engleski

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