Giant Isolated Attosecond Pulses from Two-Color Laser-Plasma Interactions

A new regime in the interaction of a two-color (ω,2ω) laser with a nanometer-scale foil is identified, resulting in the emission of extremely intense, isolated attosecond pulses-even in the case of multicycle lasers. For foils irradiated by lasers exceeding the blow-out field strength (i.e., capable...

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Veröffentlicht in:	Physical review letters 2020-03, Vol.124 (11), p.114802-114802, Article 114802
Hauptverfasser:	Zhang, Y X, Rykovanov, S, Shi, Mingyuan, Zhong, C L, He, X T, Qiao, B, Zepf, M
Format:	Artikel
Sprache:	eng
Schlagworte:	Attosecond pulses Color Field strength Foils Laser plasma interactions Lasers Plasma interactions Relativistic velocity
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container_issue	11
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container_title	Physical review letters
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creator	Zhang, Y X Rykovanov, S Shi, Mingyuan Zhong, C L He, X T Qiao, B Zepf, M
description	A new regime in the interaction of a two-color (ω,2ω) laser with a nanometer-scale foil is identified, resulting in the emission of extremely intense, isolated attosecond pulses-even in the case of multicycle lasers. For foils irradiated by lasers exceeding the blow-out field strength (i.e., capable of fully separating electrons from the ion background), the addition of a second harmonic field results in the stabilization of the foil up to the blow-out intensity. This is then followed by a sharp transition to transparency that essentially occurs in a single optical cycle. During the transition cycle, a dense, nanometer-scale electron bunch is accelerated to relativistic velocities and emits a single, strong attosecond pulse with a peak intensity approaching that of the laser field.
doi_str_mv	10.1103/PhysRevLett.124.114802
format	Article
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For foils irradiated by lasers exceeding the blow-out field strength (i.e., capable of fully separating electrons from the ion background), the addition of a second harmonic field results in the stabilization of the foil up to the blow-out intensity. This is then followed by a sharp transition to transparency that essentially occurs in a single optical cycle. 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subjects	Attosecond pulses Color Field strength Foils Laser plasma interactions Lasers Plasma interactions Relativistic velocity
title	Giant Isolated Attosecond Pulses from Two-Color Laser-Plasma Interactions
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