Ultrashort high energy electron bunches from tunable surface plasma waves driven with laser wavefront rotation

Ultrashort high energy electron bunches from tunable surface plasma waves driven with laser wavefront rotation

We propose to use ultra-high intensity laser pulses with wavefront rotation (WFR) to produce short, ultra-intense surface plasma waves (SPW) on grating targets for electron acceleration. Combining a smart grating design with optimal WFR conditions identified through simple analytical modeling and pa...

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Veröffentlicht in:arXiv.org 2021-01
Hauptverfasser: Marini, S, Kleij, P S, Pisani, F, Amiranoff, F, Grech, M, Macchi, A, Raynaud, M, Riconda, C
Format: Artikel
Sprache:eng
Schlagworte:
Electron acceleration
Electrons
High energy electrons
Particle in cell technique
Physics - Plasma Physics
Plasma waves
Rotating plasmas
Rotation
Ultrahigh intensity lasers
Wave fronts
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Zusammenfassung:We propose to use ultra-high intensity laser pulses with wavefront rotation (WFR) to produce short, ultra-intense surface plasma waves (SPW) on grating targets for electron acceleration. Combining a smart grating design with optimal WFR conditions identified through simple analytical modeling and particle-in-cell simulation allows to decrease the SPW duration (down to few optical cycles) and increase its peak amplitude. In the relativistic regime, for \(I\lambda_0^2=3.4 \times 10^{19}{\rm W/cm^2\mu m^2}\), such SPW are found to accelerate high-charge (few 10's of pC), high-energy (up to 70 MeV) and ultra-short (few fs) electron bunches.
ISSN:2331-8422
DOI:10.48550/arxiv.2101.01635