Betatron emission as a diagnostic for injection and acceleration mechanisms in laser plasma accelerators

Corde, S.; Thaury, C.; Phuoc, K. Ta; Lifschitz, A.; Lambert, G.; Lundh, Olle; Brijesh, P.; Arantchuk, L.; Sebban, S.; Rousse, A.; Faure, J.; Malka, V.

Betatron emission as a diagnostic for injection and acceleration mechanisms in laser plasma accelerators

Mark

Corde, S. ; Thaury, C. ; Phuoc, K. Ta ; Lifschitz, A. ; Lambert, G. ; Lundh, Olle ^LU ; Brijesh, P. ; Arantchuk, L. ; Sebban, S. and Rousse, A. , et al. (2012) In Plasma Physics and Controlled Fusion 54(12).

Abstract: Betatron x-ray emission in laser plasma accelerators is a promising compact source that may be an alternative to conventional x-ray sources, based on large scale machines. In addition to its potential as a source, precise measurements of betatron emission can reveal crucial information about relativistic laser-plasma interaction. We show that the emission length and the position of the x-ray emission can be obtained by placing an aperture mask close to the source, and by measuring the beam profile of the betatron x-ray radiation far from the aperture mask. The position of the x-ray emission gives information on plasma wave breaking and hence on the laser non-linear propagation. Moreover, the measurement of the longitudinal extension helps... (More); Betatron x-ray emission in laser plasma accelerators is a promising compact source that may be an alternative to conventional x-ray sources, based on large scale machines. In addition to its potential as a source, precise measurements of betatron emission can reveal crucial information about relativistic laser-plasma interaction. We show that the emission length and the position of the x-ray emission can be obtained by placing an aperture mask close to the source, and by measuring the beam profile of the betatron x-ray radiation far from the aperture mask. The position of the x-ray emission gives information on plasma wave breaking and hence on the laser non-linear propagation. Moreover, the measurement of the longitudinal extension helps one to determine whether the acceleration is limited by pump depletion or dephasing effects. In the case of multiple injections, it is used to retrieve unambiguously the position in the plasma of each injection. This technique is also used to study how, in a capillary discharge, the variations of the delay between the discharge and the laser pulse affect the interaction. The study reveals that, for a delay appropriate for laser guiding, the x-ray emission only occurs in the second half of the capillary: no electrons are injected and accelerated in the first half. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/3366270

author

Corde, S. ; Thaury, C. ; Phuoc, K. Ta ; Lifschitz, A. ; Lambert, G. ; Lundh, Olle ^LU ; Brijesh, P. ; Arantchuk, L. ; Sebban, S. and Rousse, A. , et al. (More)

Corde, S. ; Thaury, C. ; Phuoc, K. Ta ; Lifschitz, A. ; Lambert, G. ; Lundh, Olle ^LU ; Brijesh, P. ; Arantchuk, L. ; Sebban, S. ; Rousse, A. ; Faure, J. and Malka, V. (Less)

organization

Atomic Physics

publishing date

2012

type

Contribution to journal

publication status

published

subject

Atom and Molecular Physics and Optics

in

Plasma Physics and Controlled Fusion

volume

54

issue

12

article number

124023

publisher

IOP Publishing

external identifiers

wos:000312579500026
scopus:84870178683

ISSN

0741-3335

DOI

10.1088/0741-3335/54/12/124023

language

English

LU publication?

yes

id

61f230ab-c912-4da7-aba9-fbe976ea7213 (old id 3366270)

date added to LUP

2016-04-01 10:14:53

date last changed

2022-01-25 21:16:47

@article{61f230ab-c912-4da7-aba9-fbe976ea7213,
  abstract     = {{Betatron x-ray emission in laser plasma accelerators is a promising compact source that may be an alternative to conventional x-ray sources, based on large scale machines. In addition to its potential as a source, precise measurements of betatron emission can reveal crucial information about relativistic laser-plasma interaction. We show that the emission length and the position of the x-ray emission can be obtained by placing an aperture mask close to the source, and by measuring the beam profile of the betatron x-ray radiation far from the aperture mask. The position of the x-ray emission gives information on plasma wave breaking and hence on the laser non-linear propagation. Moreover, the measurement of the longitudinal extension helps one to determine whether the acceleration is limited by pump depletion or dephasing effects. In the case of multiple injections, it is used to retrieve unambiguously the position in the plasma of each injection. This technique is also used to study how, in a capillary discharge, the variations of the delay between the discharge and the laser pulse affect the interaction. The study reveals that, for a delay appropriate for laser guiding, the x-ray emission only occurs in the second half of the capillary: no electrons are injected and accelerated in the first half.}},
  author       = {{Corde, S. and Thaury, C. and Phuoc, K. Ta and Lifschitz, A. and Lambert, G. and Lundh, Olle and Brijesh, P. and Arantchuk, L. and Sebban, S. and Rousse, A. and Faure, J. and Malka, V.}},
  issn         = {{0741-3335}},
  language     = {{eng}},
  number       = {{12}},
  publisher    = {{IOP Publishing}},
  series       = {{Plasma Physics and Controlled Fusion}},
  title        = {{Betatron emission as a diagnostic for injection and acceleration mechanisms in laser plasma accelerators}},
  url          = {{http://dx.doi.org/10.1088/0741-3335/54/12/124023}},
  doi          = {{10.1088/0741-3335/54/12/124023}},
  volume       = {{54}},
  year         = {{2012}},
}

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Betatron emission as a diagnostic for injection and acceleration mechanisms in laser plasma accelerators