Single thin-plate compression of multi-TW laser pulses to 3.9 fs

Post-compression of 12-fs laser pulses with multi-TW peak power from an optical parametric chirped pulse amplification (OPCPA) system was performed by using a single thin fused silica plate in a vacuum. By optimizing the input pulses in both spatial and temporal domains, after compression with custo...

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Veröffentlicht in:	Optics letters 2023-01, Vol.48 (1), p.57-60
Hauptverfasser:	Tóth, Szabolcs, Nagymihály, Roland S, Seres, Imre, Lehotai, Levente, Csontos, János, Tóth, László Tamás, Geetha, Prabhash Prasannan, Somoskői, Tamás, Kajla, Barna, Abt, Dániel, Pajer, Viktor, Farkas, Arnold, Mohácsi, Árpád, Börzsönyi, Ádám, Osvay, Károly
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Sprache:	eng
Schlagworte:	Fused silica Particle acceleration Thin plates
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creator	Tóth, Szabolcs Nagymihály, Roland S Seres, Imre Lehotai, Levente Csontos, János Tóth, László Tamás Geetha, Prabhash Prasannan Somoskői, Tamás Kajla, Barna Abt, Dániel Pajer, Viktor Farkas, Arnold Mohácsi, Árpád Börzsönyi, Ádám Osvay, Károly
description	Post-compression of 12-fs laser pulses with multi-TW peak power from an optical parametric chirped pulse amplification (OPCPA) system was performed by using a single thin fused silica plate in a vacuum. By optimizing the input pulses in both spatial and temporal domains, after compression with customized chirped mirrors, we achieved pulses as short as 3.87 fs, in combination with 12-mJ energy. The spatio-spectral quality of the post-compressed pulses was thoroughly analyzed. The generated 1.4-cycle pulses pave the way for next generation attosecond and particle acceleration experiments.
doi_str_mv	10.1364/OL.478253
format	Article
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subjects	Fused silica Particle acceleration Thin plates
title	Single thin-plate compression of multi-TW laser pulses to 3.9 fs
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