A. Knauer, G. Erbert, R. Staske, B. Sumpf, H. Wenzel and M. Weyers

Published in:

Semicond. Sci. Technol., vol. 20, no. 6, pp. 621-624 (2005).

Abstract:

We present a detailed design and experimental study of diode laser structures emitting at 808 nm based on the combination of a GaAsP quantum well with well-established AlGaAs wave guide structures. By increasing the thickness of the confinement layers of the laser structure, its vertical far field divergence is reduced down to 15° with only a small increase of the threshold current and small loss of efficiency. 200 µm aperture ‘broad area’ devices achieve at a heat sink temperature of 25°C a continuous wave (CW) output power of more than 15 W with a wall-plug efficiency of 50% with a vertical far field divergence of 18°. This output power illustrates the excellent high-power performance by using super-large optical-cavity structures with improved beam characteristics in comparison to the conventional broad waveguide lasers.

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