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Self-Generated Magnetic Fields and Thermal Flux Inhibition.

Author: M H Emery; J H Gardner; NAVAL RESEARCH LAB WASHINGTON DC.
Publisher: Ft. Belvoir Defense Technical Information Center 28 SEP 1984.
Edition/Format:   Book : English
Database:WorldCat
Summary:
We show that the observed thermal flux inhibition in high intensity, short pulse laser-plasma interaction experiments can stem directly from the strong magnetic fields generated at the ablation layer as a result of laser asymmetries. The self-consistent modeling of magnetized thermal transport in this environment shows strong thermal flux inhibition as manifested by reduced ablation pressures, reduced implosion  Read more...
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Document Type: Book
All Authors / Contributors: M H Emery; J H Gardner; NAVAL RESEARCH LAB WASHINGTON DC.
OCLC Number: 227628775
Description: 15 p.

Abstract:

We show that the observed thermal flux inhibition in high intensity, short pulse laser-plasma interaction experiments can stem directly from the strong magnetic fields generated at the ablation layer as a result of laser asymmetries. The self-consistent modeling of magnetized thermal transport in this environment shows strong thermal flux inhibition as manifested by reduced ablation pressures, reduced implosion velocities, reduced classical absorption, density profile flattening and reduced mass ablation rates. (Author).

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