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Cascaded generation of isolated sub-10 attosecond half-cycle pulses

Yinren Shou, Ronghao Hu, Zheng Gong, Jinqing Yu, Jia erh Chen, Gerard Mourou, Xueqing Yan, Wenjun Ma

2021New Journal of Physics52 citationsDOIOpen Access PDF

Abstract

Abstract Sub-10 attosecond pulses (APs) with half-cycle electric fields provide exceptional options to detect and manipulate electrons in the atomic timescale. However, the availability of such pulses is still challenging. Here, we propose a method to generate isolated sub-10 attosecond half-cycle pulses based on a cascade process naturally happening in plasma. A backward AP is first generated by shooting a moderate overdense plasma with a one-cycle femtosecond pulse. After that, an electron sheet with the thickness of several nanometers is formed and accelerated forward by the electrostatic field. Then this electron sheet goes through unipolar perturbations driven by the tail of the first-stage AP instead of the initial laser pulse. As a result, a half-cycle sub-10 AP is cascadedly produced in the transmission direction. Two-dimensional particle-in-cell simulations indicate that an isolated half-cycle pulse with the duration of 7.3 attoseconds can be generated from the cascaded scheme. Apart from a one-cycle driving pulse, such a scheme also can be realized with a commercial 100 TW 25 fs driving laser by shaping the pulse with a relativistic plasma lens in advance.

Topics & Concepts

AttosecondPhysicsFemtosecondLaserCascadePulse (music)ElectronOpticsPlasmaElectric fieldAtomic physicsExtreme ultravioletPulse durationUltrashort pulsePulse shapingFemtosecond pulse shapingLens (geology)Electromagnetic pulseFree electron modelLaser-Matter Interactions and ApplicationsLaser-Plasma Interactions and DiagnosticsAdvanced Electron Microscopy Techniques and Applications
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