Global analytical potential energy surfaces for HO2((X)over-tilde2A) based on high-level ab initio calculations

Two global analytical potential energy surfaces for the HO2(X (2)A(')) system have been developed by fitting similar to 15 000 ab initio points at the icMRCI+Q/aug-cc-pVQZ level of theory, using the reproducing kernel Hilbert space method. One analytical potential is designed to give a very accurate representation of the low energy range that determines the vibrational spectrum, while the other attempts to provide a fast and uniformly accurate potential function for reaction dynamics. The quality of the fitted potential functions is confirmed by good agreement of the (J=0) HO2 vibrational spectrum and (J=0) quantum reaction probability for the H+O-2(j(i)=0,nu(i)=0) reaction with those obtained using the spline fitted potential. Quasiclassical trajectory calculations carried out on the new potential energy surface provided the reaction probability with a zero impact parameter (b=0), which is in reasonably good agreement with the J=0 quantum results. (c) 2007 American Institute of Physics.