Focus Session: Simulations of Matter at Extreme Conditions II
FOCUS · H11 ·
Presentations
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Melting and metallization of compressed hydrogen: Predictions from first-principles calculations
COFFEE_KLATCH · Invited
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Authors
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Stanimir Bonev
- Department of Physics, Dalhousie University, Halifax, NS, Canada
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Path Integral Simulations of Hydrogen Melting at High Pressures
ORAL
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Authors
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Rebekah Graham
- UC Santa Barbara
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Burkhard Militzer
- Carnegie Institution of Washington
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Hydrogen Bonding at Extreme Conditions
ORAL
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Authors
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Riad Manaa
- Lawrence Livermore National Laboratory
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Incommensurately modulated sulfur at megabar pressures: experimental and computational study
ORAL
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Authors
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Olga Degtyareva
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Razvan Caracas
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Eugene Gregoryanz
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Ronald Cohen
- Carnegie Institution of Washington
- Geophysical Laboratory, Carnegie Institution of Washington
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Russell Hemley
- Geophysical Laboratory, Carnegie Institution of Washington, Washington, DC 20015
- Geophysical Laboratory, Carnegie Institution of Washington, 5251 Broad Branch Rd., NW, Washington DC, 20015
- Geophysical Laboratory, Carnegie Institution of Washington
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Time scale for rapid resolidification in the presence of competing solid phases
ORAL
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Authors
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Fred H. Streitz
- Lawrence Livermore National Lab
- Lawrence Livermore National Laboratory
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Mehul V. Patel
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James N. Glosli
- Lawrence Livermore National Laboratory
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Rapid pressure-induced solidification of molten metals
ORAL
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Authors
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Mehul V. Patel
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Fred H. Streitz
- Lawrence Livermore National Lab
- Lawrence Livermore National Laboratory
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Beryllium at high pressure and temperature: A first-principles molecular dynamics study
ORAL
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Authors
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Andrea Trave
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Eric Schwegler
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Francois Gygi
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Giulia Galli
- Lawrence Livermore National Laboratory
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Covalency in the superionic phase of water
ORAL
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Authors
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Laurence Fried
- Lawrence Livermore National Laboratory
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Nir Goldman
- Lawrence Livermore National Laboratory
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Multiscale Modeling of the Onset of Void Coalescence in Dynamic Fracture
ORAL
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Authors
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Robert E. Rudd
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Eira T. Seppala
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James Belak
- Lawrence Livermore National Laboratory
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Atomistic-based Dislocation Mobility Model for Material Strength at High Pressure
ORAL
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Authors
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Lin H. Yang
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John A. Moriarty
- Lawrence Livermore National Laboratory
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Deformation near grain boundaries in rocksalt structured ceramics at high strain rates
ORAL
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Authors
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James Palko
- University of Michigan
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John Kieffer
- Materials Science and Engineering, University of Michigan
- University of Michigan
- Department of Materials Science and Engineering, University of Michigan
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Absence of B1-B2 structural transition in lithium halides under hydrostatic pressure
ORAL
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Authors
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Romeo de Coss
- Department of Applied Physics, Cinvestav-Merida, Mexico.
- Department of Applied Physics, Cinvestav-Merida, Mexico
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Gabriel Murrieta
- Facultad de Matematicas, Universidad Autonoma de Yucatan, Mexico.
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Anharmonic Materials and Thermoelasticity at High Temperatures and Pressures
ORAL
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Authors
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Daniel Orlikowski
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Randolf Q. Hood
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Per Soderlind
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John A. Moriarty
- LLNL, Livermore, Ca 94551
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