Advanced numerical simulation of high energy thin plate post-compression in 3+1D

Levente Lehotai; Szabolcs Tóth; Viktor Pajer; Imre Seres; János Csontos; Ádám Börzsönyi; Károly Osvay; Károly Osvay; Benoit Bussiere; Franck Falcoz; Mikhail Kalashnikov; Roland S. Nagymihály

doi:10.1364/ASSL.2022.JW3A.9

Optica Advanced Photonics Congress 2022
Technical Digest Series (Optica Publishing Group, 2022),
paper JW3A.9
•https://doi.org/10.1364/ASSL.2022.JW3A.9

Advanced numerical simulation of high energy thin plate post-compression in 3+1D

Levente Lehotai, Szabolcs Tóth, Viktor Pajer, Imre Seres, János Csontos, Ádám Börzsönyi, Károly Osvay, Benoit Bussiere, Franck Falcoz, Mikhail Kalashnikov, and Roland S. Nagymihály

Advanced Solid State Lasers 2022

Barcelona Spain
11–15 December 2022
ISBN: 978-1-957171-20-3

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Joint Poster Session III- A (In-Person) (JW3A)

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L. Lehotai, S. Tóth, V. Pajer, I. Seres, J. Csontos, Á. Börzsönyi, K. Osvay, B. Bussiere, F. Falcoz, M. Kalashnikov, and R. S. Nagymihály, "Advanced numerical simulation of high energy thin plate post-compression in 3+1D," in Optica Advanced Photonics Congress 2022, Technical Digest Series (Optica Publishing Group, 2022), paper JW3A.9.

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Abstract

Energy scaling of the thin-plate post-compression technique was investigated with pulse energies up to 10 J by utilizing a novel 3+1D numerical simulation environment, with special focus on the few-to-single-cycle temporal regime and spatio-temporal couplings.

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