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Interferometric investigations of influence of target irradiation on the parameters of laser-produced plasma jets

Published online by Cambridge University Press:  26 July 2007

A. Kasperczuk
Affiliation:
Institute of Plasma Physics and Laser Microfusion, Warsaw, Poland
T. Pisarczyk
Affiliation:
Institute of Plasma Physics and Laser Microfusion, Warsaw, Poland
S. Borodziuk
Affiliation:
Institute of Plasma Physics and Laser Microfusion, Warsaw, Poland
J. Ullschmied
Affiliation:
Institute of Plasma Physics AS CR, Prague, Czech Republic
E. Krousky
Affiliation:
Institute of Physics AS CR, Prague, Czech Republic
K. Masek
Affiliation:
Institute of Physics AS CR, Prague, Czech Republic
M. Pfeifer
Affiliation:
Institute of Plasma Physics AS CR, Prague, Czech Republic
K. Rohlena
Affiliation:
Institute of Physics AS CR, Prague, Czech Republic
J. Skala
Affiliation:
Institute of Physics AS CR, Prague, Czech Republic
P. Pisarczyk
Affiliation:
Warsaw University of Technology, Warsaw, Poland

Abstract

Our recent experimental results demonstrate that the formation of plasma jets is a fundamental process accompanying the laser produced plasma expansion, if a massive planar target with relatively high atomic number is irradiated by a defocused laser beam. In this paper some new results on the influence of target irradiation conditions on plasma jet parameters are presented. The experiment was carried out at the PALS iodine laser facility, with the third harmonic beam of the pulse duration of 250 ps (FWHM). The beam energies varied in the range of 13–160 J, the focal spot radii in the range of 35–600 µm. The planar massive targets used in the experiment were made of Cu, Ag and Ta. For measurements of the electron density evolution a three frame interferometric system was employed. The jets were observed in the whole range of the laser energy used. The initial velocities of the plasma jets produced in the reported experiment reached the value of up to 7·107 cm/s, the jets were up to 4 mm long including the jet pedestal and about 400 µm in diameter. Calculations of the efficiency of the plasma jet production show that it decreases with increasing the laser energy.

Type
Research Article
Copyright
© 2007 Cambridge University Press

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