Multiphysics model of liquid-cooled Nd:phosphate split-slabs in large aperture optical amplifiers

Optics Express
R ChonionJ Neauport

Abstract

High repetition rates in high energy solid-state laser systems can yield to a rise of temperature in amplifiers despite the use of cooling systems. This effect can significantly impact the performance of amplifiers by inducing thermal stress, birefringence or thermal lensing. Here, we develop a multiphysics model to support the design, optimization and commissioning of a liquid-cooled large aperture split-slab laser glass amplifier. This multiphysics model includes optical pumping in the amplifying medium, heat loading, hydraulic effects induced by the liquid coolant, mechanical deformation and their potential coupled effects on the optical wavefront. The accuracy of each model is assessed by carrying out specific experimental measurements and characterizations. We show that this set of models allows the prediction of performance of a liquid-cooled amplifier from the flash-lamp emission to the amplified wavefront at a repetition rate of one shot per minute.

References

Sep 15, 2015·Optics Express·Saumyabrata BanerjeeJohn L Collier
Jun 8, 2018·Optics Express·Jiayu YiKai Zhang

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