Ab initiomolecular dynamics for liquid metals
- 1 January 1993
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 47 (1) , 558-561
- https://doi.org/10.1103/physrevb.47.558
Abstract
We present ab initio quantum-mechanical molecular-dynamics calculations based on the calculation of the electronic ground state and of the Hellmann-Feynman forces in the local-density approximation at each molecular-dynamics step. This is possible using conjugate-gradient techniques for energy minimization, and predicting the wave functions for new ionic positions using subspace alignment. This approach avoids the instabilities inherent in quantum-mechanical molecular-dynamics calculations for metals based on the use of a fictitious Newtonian dynamics for the electronic degrees of freedom. This method gives perfect control of the adiabaticity and allows us to perform simulations over several picoseconds.Keywords
This publication has 21 references indexed in Scilit:
- Ab initiocalculation of density dependence of liquid-Na propertiesPhysical Review B, 1992
- Adiabaticity in first-principles molecular dynamicsPhysical Review B, 1992
- Ab initiomolecular-dynamics techniques extended to large-length-scale systemsPhysical Review B, 1992
- Real-space implementation of nonlocal pseudopotentials for first-principles total-energy calculationsPhysical Review B, 1991
- Theory ofab initiomolecular-dynamics calculationsPhysical Review A, 1991
- Structural, bonding, dynamical, and electronic properties of liquid silicon: Anab initiomolecular-dynamics studyPhysical Review B, 1991
- Self-consistent calculations of the energy bands and bonding properties ofPhysical Review B, 1990
- Solution of Schrödinger’s equation for large systemsPhysical Review B, 1989
- Unified Approach for Molecular Dynamics and Density-Functional TheoryPhysical Review Letters, 1985
- Self-Consistent Equations Including Exchange and Correlation EffectsPhysical Review B, 1965