A new flexible atomic and polarizable potential for water simulation is validated and applied to the study of small clusters of water molecules: (H2O)(n), n = 4, 6 and 8. The low-energy equilibrium structures obtained are in good agreement with ab initio calculations. Vibrational frequencies are calculated by normal-mode analysis and are in semiquantitative agreement with ab initio data. Binding energies and dipole moments are also satisfactorily reproduced, despite the limited number of parameters of the potential.
A flexible atomic and polarizable potential for water application to small clusters
Pastore G;
2008
Abstract
A new flexible atomic and polarizable potential for water simulation is validated and applied to the study of small clusters of water molecules: (H2O)(n), n = 4, 6 and 8. The low-energy equilibrium structures obtained are in good agreement with ab initio calculations. Vibrational frequencies are calculated by normal-mode analysis and are in semiquantitative agreement with ab initio data. Binding energies and dipole moments are also satisfactorily reproduced, despite the limited number of parameters of the potential.File in questo prodotto:
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