High energy proton micro-bunches from a laser plasma accelerator

High energy proton micro-bunches from a laser plasma accelerator

Recent advances on laser-driven ion accelerators have sparked an increased interest in such energetic particle sources, particularly towards the viability of their usage in a breadth of applications, such as high energy physics and medical applications. Here, we identify a new ion acceleration mecha...

Teljes leírás

Elmentve itt :
Bibliográfiai részletek
Szerzők: Sharma Ashutosh
Kamperidis Christos
Dokumentumtípus: Cikk
Megjelent: 2019
Sorozat:SCIENTIFIC REPORTS 9 No. 1
Tárgyszavak:
Fizikai tudományok
doi:10.1038/s41598-019-50348-0

mtmt:33206749
Online Access:http://publicatio.bibl.u-szeged.hu/26971
Leíró adatok
Tartalmi kivonat:Recent advances on laser-driven ion accelerators have sparked an increased interest in such energetic particle sources, particularly towards the viability of their usage in a breadth of applications, such as high energy physics and medical applications. Here, we identify a new ion acceleration mechanism and we demonstrate, via particle-in-cell simulations, for the first time the generation of high energy, monochromatic proton micro-bunches while witnessing the acceleration and self-modulation of the accelerated proton beam in a dual-gas target, consisting of mixed ion species. In the proposed ion acceleration mechanism due to the interaction of an ultra-short, ultra-intense (2 PW, 20 fs) laser pulses with near-critical-density partially ionized plasmas (C & H species), we numerically observed high energy monochromatic proton microbunches of high quality (peak proton energy 350 MeV, laser to proton conversion efficiency ~10 −4 and angular divergence <10 degree), which can be of high relevance for medical applications. We envisage that through this scheme, the range of attained energies and the monochromaticity of the accelerated protons can be increased with existing laser facilities or allow for laser-driven ion acceleration investigations to be pursued at moderate energies in smaller scale laser laboratories, hence reducing the size of the accelerators. The use of mixed-gas targets will enable high repetition rate operation of these accelerators, free of plasma debris and electromagnetic pulse disruptions.
Terjedelem/Fizikai jellemzők:10
ISSN:2045-2322

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