Journal ArticleDOI
High density collimated beams of relativistic ions produced by petawatt laser pulses in plasmas
Yasuhiko Sentoku,T. V. Liseikina,T. Esirkepov,Francesco Califano,N. M. Naumova,Yutaka Ueshima,Va Vshivkov,Yoshiaki Kato,K. Mima,Katsunobu Nishihara,Francesco Pegoraro,Sv Bulanov +11 more
TLDR
Two-dimensional particle in cell simulations show that the laser pulse drills a channel through an underdense plasma slab due to relativistic self-focusing, where ions and electrons are accelerated in the head region of the channel.Abstract:
Under optimal interaction conditions ions can be accelerated up to relativistic energies by a petawatt laser pulse in both underdense and overdense plasmas. Two-dimensional particle in cell simulations show that the laser pulse drills a channel through an underdense plasma slab due to relativistic self-focusing. Both ions and electrons are accelerated in the head region of the channel. However, ion acceleration is more effective at the end of the slab. Here electrons from the channel expand in vacuum and are followed by the ions dragged by the Coulomb force arising from charge separation. A similar mechanism of ion acceleration occurs when a superintense laser pulse interacts with a thin slab of overdense plasma and the pulse ponderomotive pressure moves all the electrons away from a finite-diameter spot.read more
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Journal ArticleDOI
Optics in the relativistic regime
TL;DR: In this paper, a number of consequences of relativistic-strength optical fields are surveyed, including wakefield generation, a relativistically version of optical rectification, in which longitudinal field effects could be as large as the transverse ones.
Journal ArticleDOI
Ion acceleration by superintense laser-plasma interaction
TL;DR: An overview of the state of the art of ion acceleration by laser pulses as well as an outlook on its future development and perspectives are given in this article. But the main features observed in the experiments, the observed scaling with laser and plasma parameters, and the main models used both to interpret experimental data and to suggest new research directions are described.
Journal ArticleDOI
Review of laser-driven ion sources and their applications.
TL;DR: The historical background including the early laser-matter interaction studies on energetic ion acceleration relevant to inertial confinement fusion is reviewed and several implemented and proposed mechanisms of proton and/or ion acceleration driven by ultra-short high-intensity lasers are described.
Journal ArticleDOI
Oncological hadrontherapy with laser ion accelerators
TL;DR: The use of an intense collimated beam of protons produced by a high-intensity laser pulse interacting with a plasma for the proton treatment of oncological diseases is discussed and the generation of high quality proton beams is proved with particle in cell simulations.
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