Ab initio quantum Monte Carlo simulation of the warm dense electron gas

@inproceedings{Dornheim2017AbIQ,
  title={Ab initio quantum Monte Carlo simulation of the warm dense electron gas},
  author={Tobias Dornheim and Simon Groth and Fionn D Malone and Tim Schoof and Travis Sjostrom and W. Matthew C. Foulkes and Michael Bonitz},
  year={2017}
}
  • Tobias Dornheim, Simon Groth, +4 authors Michael Bonitz
  • Published 2017
  • Physics
  • Warm dense matter is one of the most active frontiers in plasma physics due to its relevance for dense astrophysical objects and for novel laboratory experiments in which matter is being strongly compressed, e.g., by high-power lasers. Its description is theoretically very challenging as it contains correlated quantum electrons at finite temperature—a system that cannot be accurately modeled by standard analytical or ground state approaches. Recently, several breakthroughs have been achieved in… CONTINUE READING

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    The HANDE-QMC Project: Open-Source Stochastic Quantum Chemistry from the Ground State Up.

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