Near-GeV Acceleration of Electrons by a Nonlinear Plasma Wave Driven by a Self-Guided Laser Pulse

S Kneip,C J Hooker,K Ta Phuoc,Z Najmudin,K Krushelnick,W B Mori,C Bellei,S P D Mangles,D Urner,E J Divall,J Schreiber,S F Martins,O Chekhlov,S R Nagel,P P Rajeev,G Doucas,C A J Palmer,R J Clarke,Nicolas Delerue ,P S Foster ,Klaus Ertel ,Jorge Vieira ,Frederico Fiúza ,Ricardo Fonseca ,Matthew Streeter ,L O Silva ,S Hawkes

doi:10.1103/physrevlett.103.035002

Near-GeV Acceleration of Electrons by a Nonlinear Plasma Wave Driven by a Self-Guided Laser Pulse

S Kneip, C J Hooker + Show 25 more

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https://doi.org/10.1103/physrevlett.103.035002

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Journal: Physical Review Letters	Publication Date: Jul 16, 2009
Citations: 247

Affiliation: Imperial College London, Rutherford Appleton Laboratory, École Polytechnique, École Nationale Supérieure de Techniques Avancées, Institut Polytechnique de Paris, Laboratoire d'Optique Appliquée, University of Michigan–Ann Arbor, Optical Sciences (United States), University of California, Los Angeles, University of Oxford

#Three-dimensional Particle In Cell Simulations #Self-Guided Laser Pulse + Show 8 more

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Abstract

The acceleration of electrons to approximately 0.8 GeV has been observed in a self-injecting laser wakefield accelerator driven at a plasma density of 5.5x10(18) cm(-3) by a 10 J, 55 fs, 800 nm laser pulse in the blowout regime. The laser pulse is found to be self-guided for 1 cm (>10zR), by measurement of a single filament containing >30% of the initial laser energy at this distance. Three-dimensional particle in cell simulations show that the intensity within the guided filament is amplified beyond its initial focused value to a normalized vector potential of a0>6, thus driving a highly nonlinear plasma wave.

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