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Nonmetals / Reducing agents / Methane / Fluid dynamics / Hydrogen / Molecular dynamics / Plasma / Equation of state / Helium / Chemistry / Matter / Chemical elements


Ab Initio Simulations of Hot, Dense Methane During Shock Experiments Benjamin L. Sherman1 , Hugh F. Wilson2 , Dayanthie Weeraratne1 , and Burkhard Militzer2,3 1 Department of Geological Sciences, California State Univers
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Document Date: 2012-07-12 09:36:16

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City

Northridge / New York / /

Company

Jupiter / Hoover / Goldman / C3 / C4 / Saturn / /

Country

United States / /

Currency

pence / /

Facility

California State University / University of California / /

IndustryTerm

band gap energy / free energy calculations / energy cutoff / chemical equilibrium / gas giants / hydrogen gas / short-lived chemical species / chemical behavior / energy / ONLINE SUPPLEMENTARY INFORMATION / chemical reactions / ice giant / chemical and thermodynamic equilibrium / online supplemental information / kinetic energy / insulator-to-metal transition / internal energy / ice giants / chemical bond / e-g / abundant chemical species / /

OperatingSystem

Fermi / /

Organization

National Science Foundation / USA Department of Earth and Planetary Science / University of California / Berkeley / Department of Astronomy / California State University / National Aeronautics and Space Administration / Department of Geological Sciences / /

Person

L. Spanu / J. Vorberger / E. Schwegler / C. Pierleoni / Nat / D. Donadio / D. Hohl / G. Galli / B. Militzer / W. H. Hubbard / F. Gygi / M. A. Morales / S. A. Bonev Astrophys / R. Helled / J. D. Kress / I. Tamblyn / D. M. Ceperley / /

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Position

good electrical conductor / /

ProvinceOrState

New York / California / /

PublishedMedium

The Astrophysical Journal / /

Technology

polymerization / Laser / simulation / /

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