Passive compensation of the misalignment instability caused by air convection in thin-disk lasers

Tom Dietrich; Stefan Piehler; Christoph Röcker; Martin Rumpel; Marwan Abdou Ahmed; Thomas Graf

doi:10.1364/OL.42.003263

Optics Letters
Vol. 42,
Issue 17,
pp. 3263-3266
(2017)
•https://doi.org/10.1364/OL.42.003263

Passive compensation of the misalignment instability caused by air convection in thin-disk lasers

Tom Dietrich, Stefan Piehler, Christoph Röcker, Martin Rumpel, Marwan Abdou Ahmed, and Thomas Graf

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Tom Dietrich, Stefan Piehler, Christoph Röcker, Martin Rumpel, Marwan Abdou Ahmed, and Thomas Graf, "Passive compensation of the misalignment instability caused by air convection in thin-disk lasers," Opt. Lett. 42, 3263-3266 (2017)

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Abstract

Wavefront distortions caused by the convection of heated ambient air in front of the laser crystal induce severe pump-power-dependent misalignment in thin-disk laser (TDL) resonators. This effect is particularly pronounced in fundamental mode operation and limits the output power when no realignment of the resonator is possible during operation. In this Letter, we present a new approach to passively compensate for this misalignment instability by exploiting the spectral dispersion of a highly efficient grating-waveguide mirror used as a cavity end-mirror in a Littrow configuration. By this, it was possible to almost triple the output power of a fundamental mode Yb:LuAG TDL pumped at 969 nm.

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Configuration	Manual Alignment	Output Power in $W$	PV in $W$ (%)	SD in $W$ (%)
1	Yes	369	$\pm 11.2 (\pm 2.9)$	$\pm 5.2 (\pm 1.3)$
2	Yes	357	$\pm 8.2 (\pm 2.3)$	$\pm 2.9 (\pm 0.8)$
3	No	347	$\pm 4.7 (\pm 1.4)$	$\pm 2.0 (\pm 0.5)$

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