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Autores principales: Smartsev, Slava, Tata, Sheroy, Liberman, Aaron, Adelberg, Michael, Mohanty, Arujash, Levine, Eitan Y., Seemann, Omri, Wan, Yang, Kroupp, Eyal, Lahaye, Ronan, Thaury, Cedric, Malka, Victor
Formato: Preprint
Publicado: 2022
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Acceso en línea:https://arxiv.org/abs/2202.13139
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author Smartsev, Slava
Tata, Sheroy
Liberman, Aaron
Adelberg, Michael
Mohanty, Arujash
Levine, Eitan Y.
Seemann, Omri
Wan, Yang
Kroupp, Eyal
Lahaye, Ronan
Thaury, Cedric
Malka, Victor
author_facet Smartsev, Slava
Tata, Sheroy
Liberman, Aaron
Adelberg, Michael
Mohanty, Arujash
Levine, Eitan Y.
Seemann, Omri
Wan, Yang
Kroupp, Eyal
Lahaye, Ronan
Thaury, Cedric
Malka, Victor
contents We present a novel, straightforward method for spatiotemporal characterization of ultra-short laser pulses. The method employs far-field interferometry and inverse Fourier transform spectroscopy, built on the theoretical basis derived in this paper. It stands out in its simplicity: it requires few non-standard optical elements and simple analysis algorithms. This method was used to measure the space-time intensity of our 100 TW class laser and to test the efficacy of a refractive doublet as a suppressor of pulse front curvature (PFC). The measured low-order spatiotemporal couplings agreed with ray-tracing simulations. In addition, we demonstrate a one-shot measurement technique, derived from our central method, which allows for quick and precise alignment of the compressor by pulse front tilt (PFT) minimization and for optimal refractive doublet positioning for the suppression of PFC.
format Preprint
id arxiv_https___arxiv_org_abs_2202_13139
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Spatiotemporal pulse characterization with far-field beamlet cross-correlation
Smartsev, Slava
Tata, Sheroy
Liberman, Aaron
Adelberg, Michael
Mohanty, Arujash
Levine, Eitan Y.
Seemann, Omri
Wan, Yang
Kroupp, Eyal
Lahaye, Ronan
Thaury, Cedric
Malka, Victor
Optics
We present a novel, straightforward method for spatiotemporal characterization of ultra-short laser pulses. The method employs far-field interferometry and inverse Fourier transform spectroscopy, built on the theoretical basis derived in this paper. It stands out in its simplicity: it requires few non-standard optical elements and simple analysis algorithms. This method was used to measure the space-time intensity of our 100 TW class laser and to test the efficacy of a refractive doublet as a suppressor of pulse front curvature (PFC). The measured low-order spatiotemporal couplings agreed with ray-tracing simulations. In addition, we demonstrate a one-shot measurement technique, derived from our central method, which allows for quick and precise alignment of the compressor by pulse front tilt (PFT) minimization and for optimal refractive doublet positioning for the suppression of PFC.
title Spatiotemporal pulse characterization with far-field beamlet cross-correlation
topic Optics
url https://arxiv.org/abs/2202.13139