Cold compression of solid matter by intense heavy-ion-beam-generated pressure waves

C. Constantin; E. Dewald; C. Niemann; D. H.H. Hoffmann; S. Udrea; D. Varentsov; J. Jacoby; U. N. Funk; U. Neuner; A. Tauschwitz

doi:10.1017/s0263034604221115

Cold compression of solid matter by intense heavy-ion-beam-generated pressure waves

C. Constantin
, E. Dewald
, C. Niemann
, D. H.H. Hoffmann
, S. Udrea
, D. Varentsov
, J. Jacoby
, U. N. Funk
, U. Neuner
, A. Tauschwitz

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

11 Scopus citations

Abstract

Experimental investigations of heavy-ion-generated shock waves in solid, multilayered targets were performed by applying a Schlieren and a laser-deflection technique. Shock velocity and the corresponding pressures, temporal and spatial density profiles inside the material compressed by multiple shock waves, and details of the shock dynamics were determined. Important for equation-of-state and phase transition studies, such experiments extend their relevance to inertial confinement fusion and astrophysical fundamental research.

Original language	English
Pages (from-to)	59-63
Number of pages	5
Journal	Laser and Particle Beams
Volume	22
Issue number	1
DOIs	https://doi.org/10.1017/s0263034604221115
State	Published - Mar 2004
Externally published	Yes

Keywords

Cold compression
Heavy-ion beam
Weak shock waves

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10.1017/s0263034604221115

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title = "Cold compression of solid matter by intense heavy-ion-beam-generated pressure waves",

abstract = "Experimental investigations of heavy-ion-generated shock waves in solid, multilayered targets were performed by applying a Schlieren and a laser-deflection technique. Shock velocity and the corresponding pressures, temporal and spatial density profiles inside the material compressed by multiple shock waves, and details of the shock dynamics were determined. Important for equation-of-state and phase transition studies, such experiments extend their relevance to inertial confinement fusion and astrophysical fundamental research.",

keywords = "Cold compression, Heavy-ion beam, Weak shock waves",

author = "C. Constantin and E. Dewald and C. Niemann and Hoffmann, \{D. H.H.\} and S. Udrea and D. Varentsov and J. Jacoby and Funk, \{U. N.\} and U. Neuner and A. Tauschwitz",

year = "2004",

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doi = "10.1017/s0263034604221115",

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TY - JOUR

T1 - Cold compression of solid matter by intense heavy-ion-beam-generated pressure waves

AU - Constantin, C.

AU - Dewald, E.

AU - Niemann, C.

AU - Hoffmann, D. H.H.

AU - Udrea, S.

AU - Varentsov, D.

AU - Jacoby, J.

AU - Funk, U. N.

AU - Neuner, U.

AU - Tauschwitz, A.

PY - 2004/3

Y1 - 2004/3

N2 - Experimental investigations of heavy-ion-generated shock waves in solid, multilayered targets were performed by applying a Schlieren and a laser-deflection technique. Shock velocity and the corresponding pressures, temporal and spatial density profiles inside the material compressed by multiple shock waves, and details of the shock dynamics were determined. Important for equation-of-state and phase transition studies, such experiments extend their relevance to inertial confinement fusion and astrophysical fundamental research.

AB - Experimental investigations of heavy-ion-generated shock waves in solid, multilayered targets were performed by applying a Schlieren and a laser-deflection technique. Shock velocity and the corresponding pressures, temporal and spatial density profiles inside the material compressed by multiple shock waves, and details of the shock dynamics were determined. Important for equation-of-state and phase transition studies, such experiments extend their relevance to inertial confinement fusion and astrophysical fundamental research.

KW - Cold compression

KW - Heavy-ion beam

KW - Weak shock waves

UR - https://www.scopus.com/pages/publications/2942752133

U2 - 10.1017/s0263034604221115

DO - 10.1017/s0263034604221115

M3 - 文章

AN - SCOPUS:2942752133

SN - 0263-0346

VL - 22

SP - 59

EP - 63

JO - Laser and Particle Beams

JF - Laser and Particle Beams

IS - 1

ER -

Cold compression of solid matter by intense heavy-ion-beam-generated pressure waves

Abstract

Keywords

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