Excited electron dynamics modeling of warm dense matter

Julius T. Su; William A. Goddard

doi:10.1103/PhysRevLett.99.185003

Excited electron dynamics modeling of warm dense matter

Julius T. Su
, William A. Goddard

California Institute of Technology

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We present a model (the electron force field, or eFF) based on a simplified solution to the time-dependent Schrödinger equation that with a single approximate potential between nuclei and electrons correctly describes many phases relevant for warm dense hydrogen. Over a temperature range of 0 to 100000 K and densities up to 1g/cm3, we find excellent agreement with experimental, path integral Monte Carlo, and linear mixing equations of state, as well as single-shock Hugoniot curves from shock compression experiments. In principle eFF should be applicable to other warm dense systems as well.

langue originale	Anglais
Numéro d'article	185003
journal	Physical Review Letters
Volume	99
Numéro de publication	18
Les DOIs	https://doi.org/10.1103/PhysRevLett.99.185003
état	Publié - 1 nov. 2007
Modification externe	Oui

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10.1103/PhysRevLett.99.185003

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abstract = "We present a model (the electron force field, or eFF) based on a simplified solution to the time-dependent Schr{\"o}dinger equation that with a single approximate potential between nuclei and electrons correctly describes many phases relevant for warm dense hydrogen. Over a temperature range of 0 to 100000 K and densities up to 1g/cm3, we find excellent agreement with experimental, path integral Monte Carlo, and linear mixing equations of state, as well as single-shock Hugoniot curves from shock compression experiments. In principle eFF should be applicable to other warm dense systems as well.",

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AB - We present a model (the electron force field, or eFF) based on a simplified solution to the time-dependent Schrödinger equation that with a single approximate potential between nuclei and electrons correctly describes many phases relevant for warm dense hydrogen. Over a temperature range of 0 to 100000 K and densities up to 1g/cm3, we find excellent agreement with experimental, path integral Monte Carlo, and linear mixing equations of state, as well as single-shock Hugoniot curves from shock compression experiments. In principle eFF should be applicable to other warm dense systems as well.

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Excited electron dynamics modeling of warm dense matter

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