Ab initio MRD-CI study of the renner-teller effect and spin-orbit coupling in the X²ground state of NCO

Abstract

A series of MRD-CI calculations on the bending potential curve of the X2∏ ground state of the NCO molecule is reported, whereby the inter-nuclear distances have been kept at their calculated equilibrium values corresponding to r(NC) = 2-36 a.u. (1-25 Å) and r(CO) = 2-23 a.u. (118 Å). The value of the spin-orbit splitting has been calculated to first order in perturbation theory and subsequently employed in a calculation of the vibronic energy levels. The theoretical treatment employs a basis set of 40 bending functions for l1 = K — 1 and l2 = K + 1 respectively. Reasonably good quantitative agreement with available experimental data is noted, especially for the low-energy portion of the spectrum. The sign of the spin-orbit splitting for the individual vibronic states exhibits an abrupt change at positions where the levels of the upper Renner-Teller component 12A’ lie above those of the 12A” state, an effect which is also observed for the NH2 molecule. © Taylor & Francis Group, LLC.