Modeling radiative-shocks created by laser–cluster interactions | Zendy

R. H. H. Scott | Zendy; N. Booth | Zendy; Sarah Hawkes | Zendy; D.R. Symes | Zendy; C. J. Hooker | Zendy; Hugo Doyle | Zendy; Stefan Olsson-Robbie | Zendy; Hazel Lowe | Zendy; Christopher J. Price | Zendy; Damien Bigourd | Zendy; S. Patankar | Zendy; Katalin Mecseki | Zendy; E. T. Gumbrell | Zendy; R. A. Smith | Zendy

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Modeling radiative-shocks created by laser–cluster interactions

Author(s) -

R. H. H. Scott,

N. Booth,

Sarah Hawkes,

D.R. Symes,

C. J. Hooker,

Hugo Doyle,

Stefan Olsson-Robbie,

Hazel Lowe,

Christopher J. Price,

Damien Bigourd,

S. Patankar,

Katalin Mecseki,

E. T. Gumbrell,

R. A. Smith

Publication year - 2020

Publication title -

physics of plasmas

Language(s) - Uncategorized

Resource type - Journals

SCImago Journal Rank - 0.75

H-Index - 160

eISSN - 1089-7674

pISSN - 1070-664X

DOI - 10.1063/1.5136070

Subject(s) - physics , radiative transfer , amplitude , shock (circulatory) , shock wave , cluster (spacecraft) , radiation , laser , astrophysics , radiative equilibrium , computational physics , plasma , atomic physics , mechanics , optics , nuclear physics , medicine , computer science , programming language

Radiative-shocks induced by laser–cluster interactions are modeled using radiation-hydrodynamic simulations. A good agreement—in both shock velocity and density profiles—is obtained between experim...

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