Optical control of hard X-ray polarization by electron injection in a laser wakefield accelerator

Laser-plasma particle accelerators could provide more compact sources of high-energy radiation than conventional accelerators. Moreover, because they deliver radiation in femtosecond pulses, they could improve the time resolution of X-ray absorption techniques. Here we show that we can measure and c...

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Published in:Nature communications 2013-09, Vol.4 (1), p.2421-2421, Article 2421
Main Authors: Schnell, Michael, Sävert, Alexander, Uschmann, Ingo, Reuter, Maria, Nicolai, Maria, Kämpfer, Tino, Landgraf, Björn, Jäckel, Oliver, Jansen, Oliver, Pukhov, Alexander, Kaluza, Malte Christoph, Spielmann, Christian
Format: Article
Language:English
Subjects:
639/624/400
639/766/1960/1137
Humanities and Social Sciences
multidisciplinary
Science
Science (multidisciplinary)
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Summary:Laser-plasma particle accelerators could provide more compact sources of high-energy radiation than conventional accelerators. Moreover, because they deliver radiation in femtosecond pulses, they could improve the time resolution of X-ray absorption techniques. Here we show that we can measure and control the polarization of ultra-short, broad-band keV photon pulses emitted from a laser-plasma-based betatron source. The electron trajectories and hence the polarization of the emitted X-rays are experimentally controlled by the pulse-front tilt of the driving laser pulses. Particle-in-cell simulations show that an asymmetric plasma wave can be driven by a tilted pulse front and a non-symmetric intensity distribution of the focal spot. Both lead to a notable off-axis electron injection followed by collective electron–betatron oscillations. We expect that our method for an all-optical steering is not only useful for plasma-based X-ray sources but also has significance for future laser-based particle accelerators. Radiation sources driven by laser-plasma accelerators have the potential to produce shorter bursts of radiation at lower cost than those based on conventional accelerators. Schnell et al. demonstrate the ability to control the polarization of the bursts of hard X-rays produced by such a source.
ISSN:2041-1723
2041-1723
DOI:10.1038/ncomms3421