Development of a universal Electron Force Field

ORAL

Abstract

In many cases, the unavailability of an adequate classical force field is a major barrier for molecular dynamics simulations. In these cases, density functional theory (DFT) provides a universal but expensive option. We propose an intermediate approach based on an ‘electron force field’ (eFF) [Su and Goddard, PRL 99, 185003 (2007)]. Inspired by VSEPR theory, we expand the electron density as a sum of overlapping spherical electron ‘balls’ (e-balls). The e-balls interact through electrostatic forces, Pauli repulsion, and exchange-correlation. The electronic total energy is calculated as a universal function of the e-ball positions and widths. As in DFT, it is independent of the nuclei, which interact only electrostatically. We parameterize this universal, many-body function by fitting to DFT calculations of a large number of molecules and solids at equilibrium, distorted, and reaction geometries.

*Funded by Spain's MINECO grant FIS2015-64886-C5-5-P

Presenters

  • Isidro Losada López

    • Condensed Matter Physics, Autonomous University of Madrid

Authors

  • Isidro Losada López

    • Condensed Matter Physics, Autonomous University of Madrid

  • Michelle Fritz

    • Slalom, Philadelphia

  • Paula Mori-Sanchez

    • Chemistry, Autonomous University of Madrid

  • Marivi Fernandez Serra

    • Stony Brook University
    • Department of Physics and Astronomy, Institute for Advance Computational Science, Stony Brook University
    • Department of Physics and Astronomy, and Institute for Advanced Computational Science, Stony Brook University
    • Department of Physics and Astronomy, Stony Brook Univerysity, U.S.A.

  • Jose M Soler

    • Departamento de Física de la Materia Condensada, Univ. Autónoma de Madrid
    • Condensed Matter Physics, Autonomous University of Madrid