22 W average power multiterawatt femtosecond laser chain enabling 1019 W/cm2 at 100 Hz
Abstract
We measure the wavefront distortions of a high peak power ultrashort (23 fs) laser system under high average power load. After 6 min-100 Hz operation of the laser at full average power (> 22 W after compression), the thermally induced wave-front distortions reach a steady state and the far-field profile of the laser beam no longer changes. By means of a deformable mirror located after the vacuum compressor, we apply a static pre-compensation to correct those aberrations allowing us to demonstrate a dramatic improvement of the far-field profile at 100 Hz with the reduction of the residual wavefront distortions below λ/16 before focusing. The applied technique provides 100 Hz operation of the femtosecond laser chain with stable pulse characteristics, corresponding to peak intensity above 10 19 W/cm 2 and average power of 19 W on target, which enables the study of relativistic optics at high repetition rate using a moderate f-number focusing optics (f/4.5).
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APB-22W average power multiTW fs laser chain enabling 1019W.cm-2 at 100Hz.pdf (1.08 Mo)
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Clady2020_Article_CorrectionTo22WAveragePowerMul-2.pdf (315.63 Ko)
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