Energy scaling of quasi-monoenergetic electron beams from laser wakefields driven by 40-TW ultra-short pulses

A. Maksimchuk; S. Reed; N. Naumova; V. Chvykov; B. Hou; G. Kalintchenko; T. Matsuoka; J. Nees; P. Rousseau; G. Mourou; V. Yanovsky

doi:10.1007/s00340-007-2802-8

Energy scaling of quasi-monoenergetic electron beams from laser wakefields driven by 40-TW ultra-short pulses

A. Maksimchuk
, S. Reed
, N. Naumova
, V. Chvykov
, B. Hou
, G. Kalintchenko
, T. Matsuoka
, J. Nees
, P. Rousseau
, G. Mourou
, V. Yanovsky

University of Michigan
Laboratory d'Optique Appliquée, ENSTA, CNRS-École Polytechnique

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

By focusing 40-TW, 30-fs laser pulses to the peak intensity of 10 ¹⁹ W/cm² onto a supersonic He gas jet, we generate quasi-monoenergetic electron beams for plasma density in the specific range 1.5×10¹⁹ cm^-3≤n_e≤3.5×10 ¹⁹ cm^-3. We show that the energy, charge, divergence and pointing stability of the beam can be controlled by changing n_e, and that higher electron energies and more stable beams are produced for lower densities. The observed variations are explained physically by the interplay among pump depletion and dephasing between accelerated electrons and plasma wave. Two-dimensional particle-in-cell simulations support the explanation by showing the evolution of the laser pulse in plasma and the specifics of electron injection and acceleration. An optimized quasi-monoenergetic beam of over 300 MeV and 10 mrad angular divergence is demonstrated at a plasma density of n _e≤1.5×10¹⁹ cm^-3.

langue originale	Anglais
Pages (de - à)	201-207
Nombre de pages	7
journal	Applied Physics B: Lasers and Optics
Volume	89
Numéro de publication	2-3
Les DOIs	https://doi.org/10.1007/s00340-007-2802-8
état	Publié - 1 nov. 2007

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@article{07d392e5246d431b8cbe0aa1da605973,

title = "Energy scaling of quasi-monoenergetic electron beams from laser wakefields driven by 40-TW ultra-short pulses",

abstract = "By focusing 40-TW, 30-fs laser pulses to the peak intensity of 10 19 W/cm2 onto a supersonic He gas jet, we generate quasi-monoenergetic electron beams for plasma density in the specific range 1.5×1019 cm-3≤ne≤3.5×10 19 cm-3. We show that the energy, charge, divergence and pointing stability of the beam can be controlled by changing ne, and that higher electron energies and more stable beams are produced for lower densities. The observed variations are explained physically by the interplay among pump depletion and dephasing between accelerated electrons and plasma wave. Two-dimensional particle-in-cell simulations support the explanation by showing the evolution of the laser pulse in plasma and the specifics of electron injection and acceleration. An optimized quasi-monoenergetic beam of over 300 MeV and 10 mrad angular divergence is demonstrated at a plasma density of n e≤1.5×1019 cm-3.",

author = "A. Maksimchuk and S. Reed and N. Naumova and V. Chvykov and B. Hou and G. Kalintchenko and T. Matsuoka and J. Nees and P. Rousseau and G. Mourou and V. Yanovsky",

year = "2007",

month = nov,

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doi = "10.1007/s00340-007-2802-8",

language = "English",

volume = "89",

pages = "201--207",

journal = "Applied Physics B: Lasers and Optics",

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TY - JOUR

T1 - Energy scaling of quasi-monoenergetic electron beams from laser wakefields driven by 40-TW ultra-short pulses

AU - Maksimchuk, A.

AU - Reed, S.

AU - Naumova, N.

AU - Chvykov, V.

AU - Hou, B.

AU - Kalintchenko, G.

AU - Matsuoka, T.

AU - Nees, J.

AU - Rousseau, P.

AU - Mourou, G.

AU - Yanovsky, V.

PY - 2007/11/1

Y1 - 2007/11/1

N2 - By focusing 40-TW, 30-fs laser pulses to the peak intensity of 10 19 W/cm2 onto a supersonic He gas jet, we generate quasi-monoenergetic electron beams for plasma density in the specific range 1.5×1019 cm-3≤ne≤3.5×10 19 cm-3. We show that the energy, charge, divergence and pointing stability of the beam can be controlled by changing ne, and that higher electron energies and more stable beams are produced for lower densities. The observed variations are explained physically by the interplay among pump depletion and dephasing between accelerated electrons and plasma wave. Two-dimensional particle-in-cell simulations support the explanation by showing the evolution of the laser pulse in plasma and the specifics of electron injection and acceleration. An optimized quasi-monoenergetic beam of over 300 MeV and 10 mrad angular divergence is demonstrated at a plasma density of n e≤1.5×1019 cm-3.

AB - By focusing 40-TW, 30-fs laser pulses to the peak intensity of 10 19 W/cm2 onto a supersonic He gas jet, we generate quasi-monoenergetic electron beams for plasma density in the specific range 1.5×1019 cm-3≤ne≤3.5×10 19 cm-3. We show that the energy, charge, divergence and pointing stability of the beam can be controlled by changing ne, and that higher electron energies and more stable beams are produced for lower densities. The observed variations are explained physically by the interplay among pump depletion and dephasing between accelerated electrons and plasma wave. Two-dimensional particle-in-cell simulations support the explanation by showing the evolution of the laser pulse in plasma and the specifics of electron injection and acceleration. An optimized quasi-monoenergetic beam of over 300 MeV and 10 mrad angular divergence is demonstrated at a plasma density of n e≤1.5×1019 cm-3.

U2 - 10.1007/s00340-007-2802-8

DO - 10.1007/s00340-007-2802-8

M3 - Article

AN - SCOPUS:35648949448

SN - 0946-2171

VL - 89

SP - 201

EP - 207

JO - Applied Physics B: Lasers and Optics

JF - Applied Physics B: Lasers and Optics

IS - 2-3

ER -

Energy scaling of quasi-monoenergetic electron beams from laser wakefields driven by 40-TW ultra-short pulses

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