Demonstration of the synchrotron-type spectrum of laser-produced Betatron radiation

S. Fourmaux; S. Corde; K. Ta Phuoc; P. M. Leguay; S. Payeur; P. Lassonde; S. Gnedyuk; G. Lebrun; C. Fourment; V. Malka; S. Sebban; A. Rousse; J. C. Kieffer

doi:10.1088/1367-2630/13/3/033017

Demonstration of the synchrotron-type spectrum of laser-produced Betatron radiation

S. Fourmaux
, S. Corde
, K. Ta Phuoc
, P. M. Leguay
, S. Payeur
, P. Lassonde
, S. Gnedyuk
, G. Lebrun
, C. Fourment
, V. Malka
, S. Sebban
, A. Rousse
, J. C. Kieffer

INRS-ÉMT
Laboratory d'Optique Appliquée, ENSTA, CNRS-École Polytechnique
Univ. Bordeaux

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

Abstract

Betatron x-ray radiation in laser-plasma accelerators is produced when electrons are accelerated and wiggled in the laser-wakefield cavity. This femtosecond source, producing intense x-ray beams in the multi-kiloelectronvolt (keV) range, has been observed at different interaction regimes using a highpower laser from 10 to 100TW. However, none of the spectral measurements carried out were at sufficient resolution, bandwidth and signal-to-noise ratio to precisely determine the shape of spectra with a single laser shot in order to avoid shot-to-shot fluctuations. In this paper, the Betatron radiation produced using a 80TW laser is characterized by using a single photon ounting method. We measure in a single shot spectra from 8 to 21 keV with a resolution better than 350 eV. The results obtained are in excellent agreement with theoretical predictions and demonstrate the synchrotron-type nature of this radiation mechanism. The critical energy is found to be E_c = 5.6±1 keV for our experimental conditions. In addition, the features of the source at this energy range open up novel opportunities for applications in time-resolved x-ray science.

Original language	English
Article number	033017
Journal	New Journal of Physics
Volume	13
DOIs	https://doi.org/10.1088/1367-2630/13/3/033017
Publication status	Published - 1 Jan 2011

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@article{1e3f2db91f0940fcaaed4565f68f75a7,

title = "Demonstration of the synchrotron-type spectrum of laser-produced Betatron radiation",

abstract = "Betatron x-ray radiation in laser-plasma accelerators is produced when electrons are accelerated and wiggled in the laser-wakefield cavity. This femtosecond source, producing intense x-ray beams in the multi-kiloelectronvolt (keV) range, has been observed at different interaction regimes using a highpower laser from 10 to 100TW. However, none of the spectral measurements carried out were at sufficient resolution, bandwidth and signal-to-noise ratio to precisely determine the shape of spectra with a single laser shot in order to avoid shot-to-shot fluctuations. In this paper, the Betatron radiation produced using a 80TW laser is characterized by using a single photon ounting method. We measure in a single shot spectra from 8 to 21 keV with a resolution better than 350 eV. The results obtained are in excellent agreement with theoretical predictions and demonstrate the synchrotron-type nature of this radiation mechanism. The critical energy is found to be Ec = 5.6±1 keV for our experimental conditions. In addition, the features of the source at this energy range open up novel opportunities for applications in time-resolved x-ray science.",

author = "S. Fourmaux and S. Corde and \{Ta Phuoc\}, K. and Leguay, \{P. M.\} and S. Payeur and P. Lassonde and S. Gnedyuk and G. Lebrun and C. Fourment and V. Malka and S. Sebban and A. Rousse and Kieffer, \{J. C.\}",

year = "2011",

month = jan,

day = "1",

doi = "10.1088/1367-2630/13/3/033017",

language = "English",

volume = "13",

journal = "New Journal of Physics",

issn = "1367-2630",

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TY - JOUR

T1 - Demonstration of the synchrotron-type spectrum of laser-produced Betatron radiation

AU - Fourmaux, S.

AU - Corde, S.

AU - Ta Phuoc, K.

AU - Leguay, P. M.

AU - Payeur, S.

AU - Lassonde, P.

AU - Gnedyuk, S.

AU - Lebrun, G.

AU - Fourment, C.

AU - Malka, V.

AU - Sebban, S.

AU - Rousse, A.

AU - Kieffer, J. C.

PY - 2011/1/1

Y1 - 2011/1/1

N2 - Betatron x-ray radiation in laser-plasma accelerators is produced when electrons are accelerated and wiggled in the laser-wakefield cavity. This femtosecond source, producing intense x-ray beams in the multi-kiloelectronvolt (keV) range, has been observed at different interaction regimes using a highpower laser from 10 to 100TW. However, none of the spectral measurements carried out were at sufficient resolution, bandwidth and signal-to-noise ratio to precisely determine the shape of spectra with a single laser shot in order to avoid shot-to-shot fluctuations. In this paper, the Betatron radiation produced using a 80TW laser is characterized by using a single photon ounting method. We measure in a single shot spectra from 8 to 21 keV with a resolution better than 350 eV. The results obtained are in excellent agreement with theoretical predictions and demonstrate the synchrotron-type nature of this radiation mechanism. The critical energy is found to be Ec = 5.6±1 keV for our experimental conditions. In addition, the features of the source at this energy range open up novel opportunities for applications in time-resolved x-ray science.

AB - Betatron x-ray radiation in laser-plasma accelerators is produced when electrons are accelerated and wiggled in the laser-wakefield cavity. This femtosecond source, producing intense x-ray beams in the multi-kiloelectronvolt (keV) range, has been observed at different interaction regimes using a highpower laser from 10 to 100TW. However, none of the spectral measurements carried out were at sufficient resolution, bandwidth and signal-to-noise ratio to precisely determine the shape of spectra with a single laser shot in order to avoid shot-to-shot fluctuations. In this paper, the Betatron radiation produced using a 80TW laser is characterized by using a single photon ounting method. We measure in a single shot spectra from 8 to 21 keV with a resolution better than 350 eV. The results obtained are in excellent agreement with theoretical predictions and demonstrate the synchrotron-type nature of this radiation mechanism. The critical energy is found to be Ec = 5.6±1 keV for our experimental conditions. In addition, the features of the source at this energy range open up novel opportunities for applications in time-resolved x-ray science.

U2 - 10.1088/1367-2630/13/3/033017

DO - 10.1088/1367-2630/13/3/033017

M3 - Article

AN - SCOPUS:79953792421

SN - 1367-2630

VL - 13

JO - New Journal of Physics

JF - New Journal of Physics

M1 - 033017

ER -

Demonstration of the synchrotron-type spectrum of laser-produced Betatron radiation

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