Influence of the Prepulse on the X-Ray Yield of a Subpicosecond Laser-Produced Plasma View Full Text


Ontology type: schema:Chapter     


Chapter Info

DATE

1994

AUTHORS

J. C. Gauthier , A. Rousse , F. Falliès , J. P. Geindre , P. Audebert , A. Mysyrowicz , G. Grillon , J. P. Chambaret , A. Antonetti

ABSTRACT

The development of lasers delivering ultra-short pulses at the multigigawatt power level opens new perspectives for the study of laser-matter interaction at very high intensities. When an intense ultra-short pulse laser is focused onto the surface of a solid, a high temperature, x-ray emitting plasma is produced. Laser energy heats up the solid target material over a length comparable to the skin depth. Due to the short laser pulse duration, this leads to rapid ionization before any significant hydrodynamic motion of the target occurs. These plasmas look very promising for the generation of sub-picosecond x-rays in the keV range. Several groups1–7 have recently begun to explore the physics of laser-heating solid density targets because the availability of such x-ray pulses will have significant impact in many areas requiring time-resolved measurements in plasma and solid state physics. More... »

PAGES

357-366

Book

TITLE

Laser Interactions with Atoms, Solids and Plasmas

ISBN

978-1-4899-1578-8
978-1-4899-1576-4

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/978-1-4899-1576-4_16

DOI

http://dx.doi.org/10.1007/978-1-4899-1576-4_16

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1044260275


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31 schema:description The development of lasers delivering ultra-short pulses at the multigigawatt power level opens new perspectives for the study of laser-matter interaction at very high intensities. When an intense ultra-short pulse laser is focused onto the surface of a solid, a high temperature, x-ray emitting plasma is produced. Laser energy heats up the solid target material over a length comparable to the skin depth. Due to the short laser pulse duration, this leads to rapid ionization before any significant hydrodynamic motion of the target occurs. These plasmas look very promising for the generation of sub-picosecond x-rays in the keV range. Several groups1–7 have recently begun to explore the physics of laser-heating solid density targets because the availability of such x-ray pulses will have significant impact in many areas requiring time-resolved measurements in plasma and solid state physics.
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