Hard X Rays from Laser-Wakefield Accelerators in Density Tailored Plasmas

Michaela Kozlova; Igor Andriyash; Julien Gautier; Stephane Sebban; Slava Smartsev; Noemie Jourdain; Uddhab Chaulagain; Yasmina Azamoum; Amar Tafzi; Jean-Philippe Goddet; Kosta Oubrerie; Cedric Thaury; Antoine Rousse; Kim Ta Phuoc

doi:10.1103/PhysRevX.10.011061

Physical Review X (Mar 2020)

Hard X Rays from Laser-Wakefield Accelerators in Density Tailored Plasmas

Michaela Kozlova,
Igor Andriyash,
Julien Gautier,
Stephane Sebban,
Slava Smartsev,
Noemie Jourdain,
Uddhab Chaulagain,
Yasmina Azamoum,
Amar Tafzi,
Jean-Philippe Goddet,
Kosta Oubrerie,
Cedric Thaury,
Antoine Rousse,
Kim Ta Phuoc

Affiliations

Michaela Kozlova
Igor Andriyash
Julien Gautier
Stephane Sebban
Slava Smartsev
Noemie Jourdain
Uddhab Chaulagain
Yasmina Azamoum
Amar Tafzi
Jean-Philippe Goddet
Kosta Oubrerie
Cedric Thaury
Antoine Rousse
Kim Ta Phuoc

DOI: https://doi.org/10.1103/PhysRevX.10.011061
Journal volume & issue: Vol. 10, no. 1
p. 011061

Abstract

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Betatron x-ray sources from laser-plasma accelerators reproduce the principle of a synchrotron at the millimeter scale. They combine compactness, femtosecond pulse duration, broadband spectrum, and micron source size. However, when produced with terawatt class femtosecond lasers, their energy and flux are not sufficient to compete with synchrotron sources, thus limiting their dissemination and its possible applications. Here we present a simple method to enhance the energy and the flux of betatron sources without increasing the laser energy. The orbits of the relativistic electrons emitting the radiation were controlled using density tailored plasmas so that the energetic efficiency of the betatron source is increased by more than one order of magnitude.

Published in Physical Review X

ISSN: 2160-3308 (Online)
Publisher: American Physical Society
Country of publisher: United States
LCC subjects: Science: Physics
Website: https://journals.aps.org/prx/

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