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Abstract

Ablative heat waves of 10**2 to 10**3 eV temperature penetrating into a solid wall are investigated by comparing a recently found similarly solution with a more general code simulation. Scaling relations for energy loss into the wall, ablated mass, and ablation pressure are assessed.

Additional information

Authors: MEYER TER VEHN J, MAX-PLANCK-INSTITUT FUER QUANTENOPTIK, GARCHING BEI MUENCHEN (GERMANY);PAKULA R, MAX-PLANCK-INSTITUT FUER QUANTENOPTIK, GARCHING BEI MUENCHEN (GERMANY);SIGEL R, MAX-PLANCK-INSTITUT FUER QUANTENOPTIK, GARCHING BEI MUENCHEN (GERMANY);UNTERSEER K MAX-PLANCK-INSTITUT FUER QUANTENOPTIK, GARCHING BEI MUENCHEN (GERMANY), MAX-PLANCK-INSTITUT FUER QUANTENOPTIK, GARCHING BEI MUENCHEN (GERMANY)
Bibliographic Reference: PHYSICS LETTERS, VOL. 104 (1984), NO. 8, PP. 410-414
Record Number: 1989123027800 / Last updated on: 1987-01-01
Category: PUBLICATION
Available languages: en