S. Ter‐Avetisyan scite author profile

We present a general expression for the maximum ion energy observed in experiments with thin foils irradiated by high-intensity laser pulses. The analytical model is based on a radially confined surface charge set up by laser accelerated electrons on the target rear side. The only input parameters are the properties of the laser pulse and the target thickness. The predicted maximum ion energy and the optimal laser pulse duration are supported by dedicated experiments for a broad range of different ions.

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Quasimonoenergetic Deuteron Bursts Produced by Ultraintense Laser Pulses

Ter‐Avetisyan

et al. 2006

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We report on the generation and laser acceleration of bunches of energetic deuterons with a small energy spread at about 2 MeV. This quasimonoenergetic peak within the ion energy spectrum was observed when heavy-water microdroplets were irradiated with ultrashort laser pulses of about 40 fs duration and high (10(-8)) temporal contrast, at an intensity of 10(19) W/cm(2). The results can be explained by a simple physical model related to spatial separation of two ion species within a finite-volume target. The production of quasimonoenergetic ions is a long-standing goal in laser-particle acceleration; it could have diverse applications such as in medicine or in the development of future compact ion accelerators.

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Instrumentation for diagnostics and control of laser-accelerated proton (ion) beams

et al. 2014

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Suitable instrumentation for laser-accelerated proton (ion) beams is critical for development of integrated, laser-driven ion accelerator systems. Instrumentation aimed at beam diagnostics and control must be applied to the driving laser pulse, the laser-plasma that forms at the target and the emergent proton (ion) bunch in a correlated way to develop these novel accelerators. This report is a brief overview of established diagnostic techniques and new developments based on material presented at the first workshop on 'Instrumentation for Diagnostics and Control of Laser-accelerated Proton (Ion) Beams' in Abingdon, UK. It includes radiochromic film (RCF), image plates (IP), micro-channel plates (MCP), Thomson spectrometers, prompt inline scintillators, time and space-resolved interferometry (TASRI) and nuclear activation schemes. Repetition-rated instrumentation requirements for target metrology are also addressed.

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Fusion neutron yield from a laser-irradiated heavy-water spray

Ter‐Avetisyan

Schnürer

Hilscher³

et al. 2005

Physics of Plasmas

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S. Ter‐Avetisyan

Analytical Model for Ion Acceleration by High-Intensity Laser Pulses

Quasimonoenergetic Deuteron Bursts Produced by Ultraintense Laser Pulses

Instrumentation for diagnostics and control of laser-accelerated proton (ion) beams

Fusion neutron yield from a laser-irradiated heavy-water spray

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