Digital Library
Close Browse articles from a journal
 
<< previous    next >>
     Journal description
       All volumes of the corresponding journal
         All issues of the corresponding volume
           All articles of the corresponding issues
                                       Details for article 11 of 17 found articles
 
 
  Is the Ar—Br2(X1Σ+g) van der Waals complex linear rather than T-shaped? A study in terms of ab initio based potential energy surfaces
 
 
Title: Is the Ar—Br2(X1Σ+g) van der Waals complex linear rather than T-shaped? A study in terms of ab initio based potential energy surfaces
Author: NAUMKIN, F.Y.
McCOURT, F. R. W.
Appeared in: Molecular physics
Paging: Volume 96 (1999) nr. 7 pages 1043-1049
Year: 1999-04-10
Contents: The ground state Ar—Br2 potential energy surface is predicted from ab initio calculations and from an atom—atom model using empirical ArBr potentials and the (evaluated ab initio) perturbation of the interaction between Ar and Br within Br2. At all levels of modelling, the surface has a double-minimum topology, with wells for both the linear (L-) and T-shaped geometries. This differs from the single-minimum topology predicted by the commonly used pairwise additive Lennard-Jones potential. For both ab initio and atom—atom model surfaces, the L well is found to be significantly deeper than the T well; this relative behaviour is unchanged by zero-point vibrations. Spectroscopic parameters are predicted for the present surfaces. The final surfaces result from a scaling to reproduce the estimated bond energy of the system. Possible reflections of the surface topology in experimental observables are discussed.
Publisher: Taylor & Francis
Source file: Elektronische Wetenschappelijke Tijdschriften
 
 

                             Details for article 11 of 17 found articles
 
<< previous    next >>
 
 Koninklijke Bibliotheek - National Library of the Netherlands
Toegankelijkheidsverklaring