Amorphous silica modeled with truncated and screened Coulomb interactions: a molecular dynamics simulation study |
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Authors: | Carré Antoine Berthier Ludovic Horbach Jürgen Ispas Simona Kob Walter |
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Institution: | Institut für Physik, Johannes Gutenberg-Universit?t Mainz, Staudinger Weg 7, 55099 Mainz, Germany. |
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Abstract: | We show that finite-range alternatives to the standard long-range pair potential for silica by van Beest et al. Phys. Rev. Lett. 64, 1955 (1990)] might be used in molecular dynamics simulations. We study two such models that can be efficiently simulated since no Ewald summation is required. We first consider the Wolf method, where the Coulomb interactions are truncated at a cutoff distance rc such that the requirement of charge neutrality holds. Various static and dynamic quantities are computed and compared to results from simulations using Ewald summations. We find very good agreement for rc approximately 10 A. For lower values of rc, the long-range structure is affected which is accompanied by a slight acceleration of dynamic properties. In a second approach, the Coulomb interaction is replaced by an effective Yukawa interaction with two new parameters determined by a force fitting procedure. The same trend as for the Wolf method is seen. However, slightly larger cutoffs have to be used in order to obtain the same accuracy with respect to static and dynamic quantities as for the Wolf method. |
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