Open AccessImproved Potential Energy Surface of Ozone Constructed Using the Fitting by Permutationally Invariant Polynomial Function
Author(s) -
Mehdi Ayouz,
Dmitri Babikov
Publication year - 2011
Publication title -
advances in physical chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.269
H-Index - 17
eISSN - 1687-7993
pISSN - 1687-7985
DOI - 10.1155/2012/951371
Subject(s) - invariant (physics) , potential energy , potential energy surface , basis set , invariant polynomial , polynomial , ozone , ab initio , kinetic energy , surface (topology) , physics , computational physics , atomic physics , mathematics , mathematical analysis , quantum mechanics , molecule , geometry , meteorology , matrix polynomial
New global potential energy surface for the ground electronic state of ozone is constructed at the complete basis set level of the multireference configuration interaction theory. A method of fitting the data points by analytical permutationally invariant polynomial function is adopted. A small set of 500 points is preoptimized using the old surface of ozone. In this procedure the positions of points in the configuration space are chosen such that the RMS deviation of the fit is minimized. New ab initio calculations are carried out at these points and are used to build new surface. Additional points are added to the vicinity of the minimum energy path in order to improve accuracy of the fit, particularly in the region where the surface of ozone exhibits a shallow van der Waals well. New surface can be used to study formation of ozone at thermal energies and its spectroscopy near the dissociation threshold
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