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/Author(Horny, V., Veisz, L.)
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/Keywords(perpendicular injection, laser wakefield acceleration, crossing pulses, electron bunch, optical injection, )
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/Subject(Ultrahigh-intensity laser-plasma physics provides unique light and particle beams as well as novel physical phenomena. A recently available regime is based on the interaction between a relativistic intensity few-cycle laser pulse and a sub-wavelength-sized mass-limited plasma target. Here, we investigate the generation of electron bunches under these extreme conditions by means of particle-in-cell simulations. In a first step, up to all electrons are expelled from the nanodroplet and gain relativistic energy from time-dependent local field enhancement at the surface. After this ejection, the electrons are further accelerated as they copropagate with the laser pulse. As a result, a few, or under specific conditions isolated, pC-class relativistic attosecond electron bunches are generated with laser pulse parameters feasible at state-of-the-art laser facilities. This is particularly interesting for some applications, such as generation of attosecond x-ray pulses via Thomson backscattering.)
/Title(Generation of single attosecond relativistic electron bunch from intense laser interaction with a nanosphere)
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Plasma Physics and Controlled Fusion, 63 (2021) 125025 doi: 10.1088/1361-6587/ac2996
optical injection
laser wakefield acceleration
electron bunch
perpendicular injection
crossing pulses
Generation of single attosecond relativistic electron bunch from intense laser interaction with a nanosphere
Vojtetoch Horný,László Veisz
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