Hot and cold electron dynamics following high-intensity laser matter interaction

P. Antici; J. Fuchs; M. Borghesi; L. Gremillet; T. Grismayer; Y. Sentoku; E. D'Humières; C. A. Cecchetti; A. Mančić; A. C. Pipahl; T. Toncian; O. Willi; P. Mora; P. Audebert

doi:10.1103/PhysRevLett.101.105004

Hot and cold electron dynamics following high-intensity laser matter interaction

P. Antici
, J. Fuchs
, M. Borghesi
, L. Gremillet
, T. Grismayer
, Y. Sentoku
, E. D'Humières
, C. A. Cecchetti
, A. Mančić
, A. C. Pipahl
, T. Toncian
, O. Willi
, P. Mora
, P. Audebert

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

Abstract

The characteristics of fast electrons laser accelerated from solids and expanding into a vacuum from the rear target surface have been measured via optical probe reflectometry. This allows access to the time- and space-resolved dynamics of the fast electron density and temperature and of the energy partition into bulk (cold) electrons. In particular, it is found that the density of the hot electrons on the target rear surface is bell shaped, and that their mean energy at the same location is radially homogeneous and decreases with the target thickness.

Original language	English
Article number	105004
Journal	Physical Review Letters
Volume	101
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevLett.101.105004
Publication status	Published - 4 Sept 2008

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10.1103/PhysRevLett.101.105004

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Antici, P., Fuchs, J., Borghesi, M., Gremillet, L., Grismayer, T., Sentoku, Y., D'Humières, E., Cecchetti, C. A., Mančić, A., Pipahl, A. C., Toncian, T., Willi, O., Mora, P., & Audebert, P. (2008). Hot and cold electron dynamics following high-intensity laser matter interaction. Physical Review Letters, 101(10), Article 105004. https://doi.org/10.1103/PhysRevLett.101.105004

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title = "Hot and cold electron dynamics following high-intensity laser matter interaction",

abstract = "The characteristics of fast electrons laser accelerated from solids and expanding into a vacuum from the rear target surface have been measured via optical probe reflectometry. This allows access to the time- and space-resolved dynamics of the fast electron density and temperature and of the energy partition into bulk (cold) electrons. In particular, it is found that the density of the hot electrons on the target rear surface is bell shaped, and that their mean energy at the same location is radially homogeneous and decreases with the target thickness.",

author = "P. Antici and J. Fuchs and M. Borghesi and L. Gremillet and T. Grismayer and Y. Sentoku and E. D'Humi{\`e}res and Cecchetti, \{C. A.\} and A. Man{\v c}i{\'c} and Pipahl, \{A. C.\} and T. Toncian and O. Willi and P. Mora and P. Audebert",

year = "2008",

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doi = "10.1103/PhysRevLett.101.105004",

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AU - Antici, P.

AU - Fuchs, J.

AU - Borghesi, M.

AU - Gremillet, L.

AU - Grismayer, T.

AU - Sentoku, Y.

AU - D'Humières, E.

AU - Cecchetti, C. A.

AU - Mančić, A.

AU - Pipahl, A. C.

AU - Toncian, T.

AU - Willi, O.

AU - Mora, P.

AU - Audebert, P.

PY - 2008/9/4

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N2 - The characteristics of fast electrons laser accelerated from solids and expanding into a vacuum from the rear target surface have been measured via optical probe reflectometry. This allows access to the time- and space-resolved dynamics of the fast electron density and temperature and of the energy partition into bulk (cold) electrons. In particular, it is found that the density of the hot electrons on the target rear surface is bell shaped, and that their mean energy at the same location is radially homogeneous and decreases with the target thickness.

AB - The characteristics of fast electrons laser accelerated from solids and expanding into a vacuum from the rear target surface have been measured via optical probe reflectometry. This allows access to the time- and space-resolved dynamics of the fast electron density and temperature and of the energy partition into bulk (cold) electrons. In particular, it is found that the density of the hot electrons on the target rear surface is bell shaped, and that their mean energy at the same location is radially homogeneous and decreases with the target thickness.

U2 - 10.1103/PhysRevLett.101.105004

DO - 10.1103/PhysRevLett.101.105004

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SN - 0031-9007

VL - 101

JO - Physical Review Letters

JF - Physical Review Letters

IS - 10

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ER -

Hot and cold electron dynamics following high-intensity laser matter interaction

Abstract

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