Stable femtosecond X-rays with tunable polarization from a laser-driven accelerator - École polytechnique Access content directly
Journal Articles Light: Science and Applications Year : 2017

Stable femtosecond X-rays with tunable polarization from a laser-driven accelerator

Benoît Mahieu
Agustin Lifschitz
Cédric Thaury
Victor Malka
Antoine Rousse
Sébastien Corde
Kim Ta Phuoc

Abstract

Technology based on high-peak-power lasers has the potential to provide compact and intense radiation sources for a wide range of innovative applications. In particular, electrons that are accelerated in the wakefield of an intense laser pulse oscillate around the propagation axis and emit X-rays. This betatron source, which essentially reproduces the principle of a synchrotron at the millimeter scale, provides bright radiation with femtosecond duration and high spatial coherence. However, despite its unique features, the usability of the betatron source has been constrained by its poor control and stability. In this article, we demonstrate the reliable production of X-ray beams with tunable polarization. Using ionization-induced injection in a gas mixture, the orbits of the relativistic electrons emitting the radiation are reproducible and controlled. We observe that both the signal and beam profile fluctuations are significantly reduced and that the beam pointing varies by less than a tenth of the beam divergence. The polarization ratio reaches 80%, and the polarization axis can easily be rotated. We anticipate a broad impact of the source, as its unprecedented performance opens the way for new applications.
Fichier principal
Vignette du fichier
2017_Dopp_LSA.pdf (2.24 Mo) Télécharger le fichier
Origin Publication funded by an institution
Loading...

Dates and versions

hal-01651114 , version 1 (28-11-2017)

Identifiers

Cite

Andreas Döpp, Benoît Mahieu, Agustin Lifschitz, Cédric Thaury, Antoine Doche, et al.. Stable femtosecond X-rays with tunable polarization from a laser-driven accelerator. Light: Science and Applications, 2017, 6 (11), pp.e17086. ⟨10.1038/lsa.2017.86⟩. ⟨hal-01651114⟩
665 View
254 Download

Altmetric

Share

Gmail Mastodon Facebook X LinkedIn More