L
Luc Kazandjian
Researcher at French Alternative Energies and Atomic Energy Commission
Publications - 13
Citations - 196
Luc Kazandjian is an academic researcher from French Alternative Energies and Atomic Energy Commission. The author has contributed to research in topics: Density functional theory & Scattering. The author has an hindex of 7, co-authored 12 publications receiving 162 citations.
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A Review of Equation-of-State Models for Inertial Confinement Fusion Materials
Jim Gaffney,Suxing Hu,Philippe Arnault,Andreas Becker,Lorin X. Benedict,T. R. Boehly,Peter M. Celliers,David M. Ceperley,Ondřej Čertík,Jean Clérouin,Gilbert Collins,Lee A. Collins,J.-F. Danel,Nicolas Desbiens,M. W. C. Dharma-wardana,Y. H. Ding,A. Fernandez-Pañella,M.C. Gregor,Paul E. Grabowski,Sebastien Hamel,Stephanie Hansen,L. Harbour,X.T. He,Duane D. Johnson,Duane D. Johnson,W. Kang,Valentin V. Karasiev,Luc Kazandjian,Marcus D. Knudson,Tadashi Ogitsu,Carlo Pierleoni,Carlo Pierleoni,R. Piron,Ronald Redmer,Gregory Robert,Didier Saumon,Andrew Shamp,Travis Sjostrom,A. V. Smirnov,Charles Starrett,P. A. Sterne,A. Wardlow,Heather D. Whitley,Brian G. Wilson,P. Zhang,Eva Zurek +45 more
TL;DR: A detailed review of the state-of-the-art EOS models for inertial confinement fusion (ICF) implosions can be found in this paper, where the authors present a detailed comparison with experiments.
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Numerical convergence of the self-diffusion coefficient and viscosity obtained with Thomas-Fermi-Dirac molecular dynamics.
TL;DR: In the large domain of coupling constant considered, both the self-diffusion coefficient and viscosity turn out to be well approximated by simple analytical laws using a single effective atomic number calculated in the average-atom model.
Journal ArticleDOI
A Few Remarks About the Gurney Energy of Condensed Explosives
J.-F. Danel,Luc Kazandjian +1 more
TL;DR: In this paper, the Gurney energy at infinite expansion has been used to compare the ability of an explosive to accelerate a metal with its ability to accelerate it, in the context of cylinder tests.
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Direct verification of mixing rules in the hot and dense regime.
TL;DR: For structural properties, the effective charges given by the isobaric-isothermal mixing rule for the average atom model, used in the binary ionic mixture model, yield partial pair distribution functions in good agreement with those obtained by a direct simulation.