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Description of spatio-temporal couplings from heat-induced compressor grating deformation

Vincent Leroux, Timo Eichner, Andreas R. Maier

2020Optics Express44 citationsDOIOpen Access PDF

Abstract

High average power high-intensity laser systems can suffer from a heat-induced deformation of the final compressor gratings, which introduces wavefront aberrations and spatio-temporal couplings to the pulse. Here, we use a simple numerical description, that was first introduced by Li et al. (Appl. Phys. Express, 10, 102702, 2017 and Optics Express, 26, 8453, 2018), to calculate the resulting degradation of the peak intensity and the 3-dimensional deformation of the laser pulse as a function of average power, and verify the results using experimental data. For a typical 100 TW-class laser we find that non-negligible pulse distortions can occur at an average power as low as 2.7 Watts. An open source implementation of our numerical description is available for researchers to estimate the effects of spatio-temporal couplings for their specific laser configuration.

Topics & Concepts

OpticsWavefrontLaserGas compressorPhysicsGratingDeformation (meteorology)Pulse (music)Deformable mirrorAdaptive opticsIntensity (physics)Power (physics)Laser power scalingMeteorologyQuantum mechanicsDetectorThermodynamicsLaser-Plasma Interactions and DiagnosticsLaser-Matter Interactions and ApplicationsSolid State Laser Technologies
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