Beam combining techniques for high-power high-brightness diode lasers

Bastian Kruschke; Haro Fritsche; Holger Kern; Thomas Hagen; Ulrich Pahl; Ralf Koch; Andreas Grohe; Wolfgang Gries

doi:10.1117/12.2079553

1 April 2015 Beam combining techniques for high-power high-brightness diode lasers

Bastian Kruschke, Haro Fritsche, Holger Kern, Thomas Hagen, Ulrich Pahl, Ralf Koch, Andreas Grohe, Wolfgang Gries

Proceedings Volume 9346, Components and Packaging for Laser Systems; 934614 (2015) https://doi.org/10.1117/12.2079553
Event: SPIE LASE, 2015, San Francisco, California, United States

Abstract

Laser diodes are efficient and compact devices operating in a wide range of wavelengths. Boosting power by beam combining while maintaining good beam quality has been a long-standing challenge. We discuss various approaches for beam combining with emphasis on solutions pursued at DirectPhotonics. Our design employs single emitter diodes as they exhibit highest brightness and excellent reliability. In a first step, after fast axis collimation, all single emitter diodes on one subunit are stacked side-by-side by a monolithic slow-axis-collimator thus scaling the power without enhancing the brightness. The emissions of all diodes on a subunit are locked by a common Volume Bragg grating (VBG), resulting in a bandwidth < 0.5nm and high wavelength stability. Second, two subunits with identical wavelength are polarization coupled forming one wavelength channel with doubled power and brightness. Third, up to five channels are serially spectrally combined using dichroic filters. The stabilized wavelengths enable dense spectral combining, i.e. narrow channel spacing. This module features over 500W output power within 20nm bandwidth and a beam parameter product better than 3.5mm*mrad x 5mm*mrad (FA x SA) allowing for a 100μm, 0.15NA delivery fiber [1]. The small bandwidth of a 500-W-module enables subsequent coarse spectral combining by thin film filters, thus further enhancing the brightness. This potential can only be fully utilized by automated manufacturing ensuring reproducibility and high yield. A precision robotic system handles and aligns the individual fast axis lenses. Similar technologies are deployed for aligning the VBGs and dichroic filters.

Citation Download Citation

Bastian Kruschke, Haro Fritsche, Holger Kern, Thomas Hagen, Ulrich Pahl, Ralf Koch, Andreas Grohe, and Wolfgang Gries "Beam combining techniques for high-power high-brightness diode lasers", Proc. SPIE 9346, Components and Packaging for Laser Systems, 934614 (1 April 2015); https://doi.org/10.1117/12.2079553

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