Measuring spatio-temporal couplings using modal spatio-spectral wavefront retrieval
Abstract
Knowledge of spatio-temporal couplings such as pulse-front tilt or curvature is important to determine the focused intensity of high-power lasers. Common techniques to diagnose these couplings are either qualitative or require hundreds of measurements. Here we present both a new algorithm for retrieving spatio-temporal couplings, as well as novel experimental implementations. Our method is based on the expression of the spatio-spectral phase in terms of a Zernike-Taylor basis, allowing us to directly quantify the coefficients for common spatio-temporal couplings. We take advantage of this method to perform quantitative measurements using a simple experimental setup, consisting of different bandpass filters in front of a Shack-Hartmann wavefront sensor. This fast acquisition of laser couplings using narrowband filters, abbreviated FALCON, is easy and cheap to implement in existing facilities. To this end, we present a measurement of spatio-temporal couplings at the ATLAS-3000 petawatt laser using our technique.
Cite
@article{arxiv.2303.01360,
title = {Measuring spatio-temporal couplings using modal spatio-spectral wavefront retrieval},
author = {N. Weiße and J. Esslinger and S. Howard and F. M. Foerster and F. Haberstroh and L. Doyle and P. Norreys and J. Schreiber and S. Karsch and A. Doepp},
journal= {arXiv preprint arXiv:2303.01360},
year = {2023}
}