Giant electromagnetic vortex and MeV monoenergetic electrons generated by short laser pulses in underdense plasma near quarter critical density region

Giant electromagnetic vortex and MeV monoenergetic electrons generated by short laser pulses in underdense plasma near quarter critical density region

Very efficient generation of monoenergetic, about 1MeV , electrons from underdense plasma with its electron density close to the critical, when irradiated by an intense femtosecond laser pulse, is found via two dimensional particle-in-cell simulation. The stimulated Raman scattering of a laser pulse...

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Veröffentlicht in:Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics Statistical physics, plasmas, fluids, and related interdisciplinary topics, 2007-07, Vol.76 (1 Pt 2), p.016401-016401, Article 016401
Hauptverfasser: Zhidkov, Alexei, Nemoto, Koshichi, Nayuki, Takuya, Oishi, Yuji, Fuji, Takashi
Format: Artikel
Sprache:eng
Schlagworte:
ACCELERATION
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
ELECTRON DENSITY
ELECTRON SOURCES
ELECTRONS
GAMMA RADIATION
KEV RANGE 100-1000
LASERS
MEV RANGE 01-10
PARTICLE ACCELERATORS
PLASMA
PLASMA DENSITY
PLASMA SIMULATION
PONDEROMOTIVE FORCE
PULSES
RAMAN EFFECT
TWO-DIMENSIONAL CALCULATIONS
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Zusammenfassung:Very efficient generation of monoenergetic, about 1MeV , electrons from underdense plasma with its electron density close to the critical, when irradiated by an intense femtosecond laser pulse, is found via two dimensional particle-in-cell simulation. The stimulated Raman scattering of a laser pulse with frequency omega< or =2omega(pl max) gives rise to a giant electromagnetic vortex. In contrast to electron acceleration by the well-known laser pulse wake, injected plasma electrons are accelerated up to vortex ponderomotive potential forming a quite monoenergetic distribution. A relatively high charge of such an electron source makes very efficient generation of soft gamma rays with homega>300 keV .
ISSN:1539-3755
1063-651X
1550-2376
1095-3787
DOI:10.1103/PhysRevE.76.016401