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Hot Electrons Transverse Refluxing in Ultraintense Laser-Solid Interactions

Source: Phys. Rev. Lett. 105, 015005 (2010); doi:10.1103/PhysRevLett.105.015005

Published 2 July 2010

PACS
  • 52.38.Kd
    Laser-plasma acceleration of electrons and ions
  • 41.85.Ew
    Particle beam profile, beam intensity
  • 52.38.Dx
    Laser light absorption in plasmas
  • 52.65.Rr
    Particle-in-cell method (plasma simulation)
  • YEAR: 2010
PUBLICATION DATA
ISSN:
1553-9601 (online)
Publisher:
AIP is a member of CrossRef APS
S. Buffechoux,1,2 J. Psikal,3,4 M. Nakatsutsumi,1 L. Romagnani,5 A. Andreev,6 K. Zeil,7 M. Amin,8 P. Antici,12 T. Burris-Mog,7 A. Compant-La-Fontaine,9 E. d'Humières,3 S. Fourmaux,2 S. Gaillard,7 F. Gobet,10 F. Hannachi,10 S. Kraft,7 A. Mancic,1 C. Plaisir,10 G. Sarri,5 M. Tarisien,10 T. Toncian,8 U. Schramm,7 M. Tampo,11 P. Audebert,1 O. Willi,8 T. E. Cowan,7 H. Pépin,2 V. Tikhonchuk,3 M. Borghesi,5 and J. Fuchs1
1LULI, École Polytechnique, CNRS, CEA, UPMC, route de Saclay, 91128 Palaiseau, France
2INRS-EMT, Varennes, Québec, Canada
3CELIA, Université de Bordeaux-CNRS-CEA, 351 Cours de la Liberation, 33405 Talence, France
4Faculty of Nuclear Sciences and Physical Engineering, Czech Technical University, Prague, Czech Republic
5Centre for Plasma Physics, The Queen's University, Belfast BT7 1NN, United Kingdom
6Max Born Institute, Berlin D-12489, Germany
7Forschsungszentrum Dresden Rossendorf, Postfach 510119, 01314 Dresden, Germany
8Institut für Laser und Plasma Physik, Heinrich-Heine-Universität Düsseldorf, Universitätstrasse 1, 40225 Düsseldorf, Germany
9CEA, DAM, DIF, 91297 Arpajon, France
10Université de Bordeaux, Centre d'Etudes Nucléaires Bordeaux Gradignan, UMR 5797 CNRS/IN2P3, Gradignan, 33175, France
11Kansai Photon Science Institute, Japan Atomic Energy Agency (JAEA), Kyoto 619-0215, Japan
12Istituto Nazionale di Fisica Nucleare, Via E. Fermi, 40-00044 Frascati, Italy and ILE-Ecole Polytechnique-CNRS-ENSTA-Iogs-UP Sud, Batterie de l'Yvette, 91761 Palaiseau, France
We have analyzed the coupling of ultraintense lasers (at ~2×1019 W/cm2) with solid foils of limited transverse extent (~10 s of µm) by monitoring the electrons and ions emitted from the target. We observe that reducing the target surface area allows electrons at the target surface to be reflected from the target edges during or shortly after the laser pulse. This transverse refluxing can maintain a hotter, denser and more homogeneous electron sheath around the target for a longer time. Consequently, when transverse refluxing takes places within the acceleration time of associated ions, we observe increased maximum proton energies (up to threefold), increased laser-to-ion conversion efficiency (up to a factor 30), and reduced divergence which bodes well for a number of applications. ©2010 The American Physical Society
History: Received 26 February 2009; revised 21 January 2010; published 2 July 2010
Permalink: http://link.aps.org/abstract/PRL/v105/e015005
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