Physics of fully-loaded laser-plasma accelerators

E. Guillaume; A. Doepp; C. Thaury; A. Lifschitz; J-P. Goddet; A. Tafzi; F. Sylla; G. Iaquanello; T. Lefrou; P. Rousseau; K. Ta Phuoc; V. Malka

doi:10.1103/PhysRevSTAB.18.061301

Physics of fully-loaded laser-plasma accelerators

E. Guillaume, A. Doepp, C. Thaury, A. Lifschitz, J-P. Goddet, A. Tafzi, F. Sylla, G. Iaquanello, T. Lefrou, P. Rousseau, K. Ta Phuoc, V. Malka

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

Abstract

While large efforts have been devoted to improving the quality of electron beams from laser plasma accelerators, often to the detriment of the charge, many applications do not require very high quality but high-charge beams. Despite this need, the acceleration of largely charged beams has been barely studied. Here we explore both experimentally and numerically the physics of highly loaded wakefield acceleration. We find that the shape of the electron spectra is strikingly independent of the laser energy, due to the emergence of a saturation effect induced by beamloading. A transition from quasi-Maxwellian spectra at high plasma densities to flatter spectra at lower densities is also found, which is shown to be produced by the wakefield driven by the electron bunch itself after the laser depletion.

Original language	English
Article number	061301
Number of pages	5
Journal	Physical Review Special Topics-Accelerators And Beams
Volume	18
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevSTAB.18.061301
State	Published - 17 Jun 2015
Externally published	Yes

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Surfaces and Interfaces
Physics and Astronomy (miscellaneous)

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10.1103/PhysRevSTAB.18.061301License: CC BY

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title = "Physics of fully-loaded laser-plasma accelerators",

abstract = "While large efforts have been devoted to improving the quality of electron beams from laser plasma accelerators, often to the detriment of the charge, many applications do not require very high quality but high-charge beams. Despite this need, the acceleration of largely charged beams has been barely studied. Here we explore both experimentally and numerically the physics of highly loaded wakefield acceleration. We find that the shape of the electron spectra is strikingly independent of the laser energy, due to the emergence of a saturation effect induced by beamloading. A transition from quasi-Maxwellian spectra at high plasma densities to flatter spectra at lower densities is also found, which is shown to be produced by the wakefield driven by the electron bunch itself after the laser depletion.",

author = "E. Guillaume and A. Doepp and C. Thaury and A. Lifschitz and J-P. Goddet and A. Tafzi and F. Sylla and G. Iaquanello and T. Lefrou and P. Rousseau and {Ta Phuoc}, K. and V. Malka",

note = "This work was supported by the European Research Council through the PARIS ERC project (Contract No. 226424), the X-Five ERC project (Contract No. 339128), LA3NET (GA-ITN-2011-289191), Areva NDE, the NANOBIODOS INCA project and by the Agence Nationale pour la Recherche through the projects ANR-10-EQPX-CILEX and FENICS ANR-12-JS04-0004-01.",

year = "2015",

month = jun,

day = "17",

doi = "10.1103/PhysRevSTAB.18.061301",

language = "الإنجليزيّة",

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journal = "Physical Review Special Topics-Accelerators And Beams",

issn = "1098-4402",

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T1 - Physics of fully-loaded laser-plasma accelerators

AU - Guillaume, E.

AU - Doepp, A.

AU - Thaury, C.

AU - Lifschitz, A.

AU - Goddet, J-P.

AU - Tafzi, A.

AU - Sylla, F.

AU - Iaquanello, G.

AU - Lefrou, T.

AU - Rousseau, P.

AU - Ta Phuoc, K.

AU - Malka, V.

N1 - This work was supported by the European Research Council through the PARIS ERC project (Contract No. 226424), the X-Five ERC project (Contract No. 339128), LA3NET (GA-ITN-2011-289191), Areva NDE, the NANOBIODOS INCA project and by the Agence Nationale pour la Recherche through the projects ANR-10-EQPX-CILEX and FENICS ANR-12-JS04-0004-01.

PY - 2015/6/17

Y1 - 2015/6/17

N2 - While large efforts have been devoted to improving the quality of electron beams from laser plasma accelerators, often to the detriment of the charge, many applications do not require very high quality but high-charge beams. Despite this need, the acceleration of largely charged beams has been barely studied. Here we explore both experimentally and numerically the physics of highly loaded wakefield acceleration. We find that the shape of the electron spectra is strikingly independent of the laser energy, due to the emergence of a saturation effect induced by beamloading. A transition from quasi-Maxwellian spectra at high plasma densities to flatter spectra at lower densities is also found, which is shown to be produced by the wakefield driven by the electron bunch itself after the laser depletion.

AB - While large efforts have been devoted to improving the quality of electron beams from laser plasma accelerators, often to the detriment of the charge, many applications do not require very high quality but high-charge beams. Despite this need, the acceleration of largely charged beams has been barely studied. Here we explore both experimentally and numerically the physics of highly loaded wakefield acceleration. We find that the shape of the electron spectra is strikingly independent of the laser energy, due to the emergence of a saturation effect induced by beamloading. A transition from quasi-Maxwellian spectra at high plasma densities to flatter spectra at lower densities is also found, which is shown to be produced by the wakefield driven by the electron bunch itself after the laser depletion.

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DO - 10.1103/PhysRevSTAB.18.061301

M3 - مقالة

SN - 1098-4402

VL - 18

JO - Physical Review Special Topics-Accelerators And Beams

JF - Physical Review Special Topics-Accelerators And Beams

IS - 6

M1 - 061301

ER -

Physics of fully-loaded laser-plasma accelerators

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