Low-loss smile-insensitive external frequency-stabilization of high power diode lasers enabled by vertical designs with extremely low divergence angle and high efficiency

Paul Crump; Steffen Knigge; Andre Maaßdorf; Frank Bugge; Stefan Hengesbach; Ulrich Witte; Hans-Dieter Hoffmann; Bernd Köhler; Ralf Hubrich; Heiko Kissel; Jens Biesenbach; Götz Erbert; Guenther Traenkle

doi:10.1117/12.2000528

26 February 2013 Low-loss smile-insensitive external frequency-stabilization of high power diode lasers enabled by vertical designs with extremely low divergence angle and high efficiency

Paul Crump, Steffen Knigge, Andre Maaßdorf, Frank Bugge, Stefan Hengesbach, Ulrich Witte, Hans-Dieter Hoffmann, Bernd Köhler, Ralf Hubrich, Heiko Kissel, Jens Biesenbach, Götz Erbert, Guenther Traenkle

Author Affiliations +

Proceedings Volume 8605, High-Power Diode Laser Technology and Applications XI; 86050T (2013) https://doi.org/10.1117/12.2000528
Event: SPIE LASE, 2013, San Francisco, California, United States

Abstract

Broad area lasers with narrow spectra are required for many pumping applications and for wavelength beam combination. Although monolithically stabilized lasers show high performance, some applications can only be addressed with external frequency stabilization, for example when very narrow spectra are required. When conventional diode lasers with vertical far field angle, Θ_V ^95% ~ 45° (95% power) are stabilized using volume holographic gratings (VHGs), optical losses are introduced, limiting both efficiency and reliable output power, with the presence of any bar smile compounding the challenge. Diode lasers with designs optimized for extremely low vertical divergence (ELOD lasers) directly address these challenges. The vertical far field angle in conventional laser designs is limited by the waveguiding of the active region itself. In ELOD designs, quantum barriers are used that have low refractive index, enabling the influence of the active region to be suppressed, leading to narrow far field operation from thin vertical structures, for minimal electrical resistance and maximum power conversion efficiency. We review the design process, and show that 975 nm diode lasers with 90 μm stripes that use ELOD designs operate with Θ_V^95% = 26° and reach 58% power conversion efficiency at a CW output power of 10 W. We demonstrate directly that VHG stabilized ELOD lasers have significantly lower loss and larger operation windows than conventional lasers in the collimated feedback regimes, even in the presence of significant (≥ 1 μm) bar smile. We also discuss the potential influence of ELOD designs on reliable output power and options for further performance improvement.

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Paul Crump, Steffen Knigge, Andre Maaßdorf, Frank Bugge, Stefan Hengesbach, Ulrich Witte, Hans-Dieter Hoffmann, Bernd Köhler, Ralf Hubrich, Heiko Kissel, Jens Biesenbach, Götz Erbert, and Guenther Traenkle "Low-loss smile-insensitive external frequency-stabilization of high power diode lasers enabled by vertical designs with extremely low divergence angle and high efficiency ", Proc. SPIE 8605, High-Power Diode Laser Technology and Applications XI, 86050T (26 February 2013); https://doi.org/10.1117/12.2000528

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