High-energy ions from near-critical density plasmas via magnetic vortex acceleration

High-energy ions from near-critical density plasmas via magnetic vortex acceleration

Ultraintense laser pulses propagating in near-critical density plasmas generate magnetic dipole vortex structures. In the region of decreasing plasma density, the vortex expands both in forward and lateral directions. The magnetic field pressure pushes electrons and ions to form a density jump along...

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Veröffentlicht in:Physical review letters 2010-09, Vol.105 (13), p.135002-135002, Article 135002
Hauptverfasser: Nakamura, Tatsufumi, Bulanov, Sergei V, Esirkepov, Timur Zh, Kando, Masaki
Format: Artikel
Sprache:eng
Schlagworte:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
ACCELERATION
CHARGED PARTICLES
COMPUTERIZED SIMULATION
DIPOLES
ELECTRIC FIELDS
ELECTROMAGNETIC RADIATION
ELECTRONS
ELEMENTARY PARTICLES
FERMIONS
IONS
LASER RADIATION
LEPTONS
MAGNETIC DIPOLES
MAGNETIC FIELDS
MULTIPOLES
PLASMA DENSITY
PLASMA SIMULATION
PULSES
RADIATIONS
SIMULATION
TAIL IONS
VORTICES
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Zusammenfassung:Ultraintense laser pulses propagating in near-critical density plasmas generate magnetic dipole vortex structures. In the region of decreasing plasma density, the vortex expands both in forward and lateral directions. The magnetic field pressure pushes electrons and ions to form a density jump along the vortex axis and induces a longitudinal electric field. This structure moves together with the expanding dipole vortex. The background ions located ahead of the electric field are accelerated to high energies. The energy scaling of ions generated by this magnetic vortex acceleration mechanism is derived and corroborated using particle-in-cell simulations.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.105.135002