Controlled Betatron X-Ray Radiation from Tunable Optically Injected Electrons

S. Corde; K. Ta Phuoc; R. Fitour; J. Faure; A. Tafzi; J. P. Goddet; V. Malka; A. Rousse

doi:10.1103/PhysRevLett.107.255003

Controlled Betatron X-Ray Radiation from Tunable Optically Injected Electrons

S. Corde, K. Ta Phuoc, R. Fitour, J. Faure, A. Tafzi, J. P. Goddet, V. Malka, A. Rousse

Department of Physics of Complex Systems

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

The features of Betatron x-ray emission produced in a laser-plasma accelerator are closely linked to the properties of the relativistic electrons which are at the origin of the radiation. While in interaction regimes explored previously the source was by nature unstable, following the fluctuations of the electron beam, we demonstrate in this Letter the possibility to generate x-ray Betatron radiation with controlled and reproducible features, allowing fine studies of its properties. To do so, Betatron radiation is produced using monoenergetic electrons with tunable energies from a laser-plasma accelerator with colliding pulse injection [J. Faure et al., Nature (London) 444, 737 (2006)]. The presented study provides evidence of the correlations between electrons and x-rays, and the obtained results open significant perspectives toward the production of a stable and controlled femtosecond Betatron x-ray source in the keV range.

Original language	English
Article number	255003
Number of pages	5
Journal	Physical review letters
Volume	107
Issue number	25
DOIs	https://doi.org/10.1103/PhysRevLett.107.255003
State	Published - 14 Dec 2011

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.107.255003

http://arxiv.org/abs/1106.4335License: Other

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title = "Controlled Betatron X-Ray Radiation from Tunable Optically Injected Electrons",

abstract = "The features of Betatron x-ray emission produced in a laser-plasma accelerator are closely linked to the properties of the relativistic electrons which are at the origin of the radiation. While in interaction regimes explored previously the source was by nature unstable, following the fluctuations of the electron beam, we demonstrate in this Letter the possibility to generate x-ray Betatron radiation with controlled and reproducible features, allowing fine studies of its properties. To do so, Betatron radiation is produced using monoenergetic electrons with tunable energies from a laser-plasma accelerator with colliding pulse injection [J. Faure et al., Nature (London) 444, 737 (2006)]. The presented study provides evidence of the correlations between electrons and x-rays, and the obtained results open significant perspectives toward the production of a stable and controlled femtosecond Betatron x-ray source in the keV range.",

author = "S. Corde and Phuoc, {K. Ta} and R. Fitour and J. Faure and A. Tafzi and Goddet, {J. P.} and V. Malka and A. Rousse",

note = "The authors acknowledge the support of the European Research Council (PARIS ERC, Contract No. 226424) and EuCARD/ANAC, EC FP7 (Contract No. 227579).",

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doi = "10.1103/PhysRevLett.107.255003",

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T1 - Controlled Betatron X-Ray Radiation from Tunable Optically Injected Electrons

AU - Corde, S.

AU - Phuoc, K. Ta

AU - Fitour, R.

AU - Faure, J.

AU - Tafzi, A.

AU - Goddet, J. P.

AU - Malka, V.

AU - Rousse, A.

N1 - The authors acknowledge the support of the European Research Council (PARIS ERC, Contract No. 226424) and EuCARD/ANAC, EC FP7 (Contract No. 227579).

PY - 2011/12/14

Y1 - 2011/12/14

N2 - The features of Betatron x-ray emission produced in a laser-plasma accelerator are closely linked to the properties of the relativistic electrons which are at the origin of the radiation. While in interaction regimes explored previously the source was by nature unstable, following the fluctuations of the electron beam, we demonstrate in this Letter the possibility to generate x-ray Betatron radiation with controlled and reproducible features, allowing fine studies of its properties. To do so, Betatron radiation is produced using monoenergetic electrons with tunable energies from a laser-plasma accelerator with colliding pulse injection [J. Faure et al., Nature (London) 444, 737 (2006)]. The presented study provides evidence of the correlations between electrons and x-rays, and the obtained results open significant perspectives toward the production of a stable and controlled femtosecond Betatron x-ray source in the keV range.

AB - The features of Betatron x-ray emission produced in a laser-plasma accelerator are closely linked to the properties of the relativistic electrons which are at the origin of the radiation. While in interaction regimes explored previously the source was by nature unstable, following the fluctuations of the electron beam, we demonstrate in this Letter the possibility to generate x-ray Betatron radiation with controlled and reproducible features, allowing fine studies of its properties. To do so, Betatron radiation is produced using monoenergetic electrons with tunable energies from a laser-plasma accelerator with colliding pulse injection [J. Faure et al., Nature (London) 444, 737 (2006)]. The presented study provides evidence of the correlations between electrons and x-rays, and the obtained results open significant perspectives toward the production of a stable and controlled femtosecond Betatron x-ray source in the keV range.

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U2 - 10.1103/PhysRevLett.107.255003

DO - 10.1103/PhysRevLett.107.255003

M3 - مقالة

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JO - Physical review letters

JF - Physical review letters

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M1 - 255003

ER -

Controlled Betatron X-Ray Radiation from Tunable Optically Injected Electrons

Abstract

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