Global triplet potential energy surfaces for the N-2(X-1 Sigma) + O(P-3) - NO(X-2 Pi) + N(S-4) reaction

摘要

This work presents two global triplet potential energy surfaces (PESs) for the high-energy reaction N-2(X-1 Sigma) + O(P-3) -> NO(X-2 Pi) + N(S-4)-in particular, for the lowest energy (3)A' and 3A '' PESs. In order to obtain the energies needed for fitting analytic surfaces, we carried out multireference configuration interaction (MRCI) calculations based on wave functions obtained from state-averaged complete active space self-consistent field calculations for 2280 geometries for the three lowest (3)A '' states and for 2298 geometries for the three lowest (3)A' states. The lowest-energy (3)A' and (3)A '' states at each of these geometries were then improved by applying the dynamically scaled external correlation (DSEC) method to all MRCI points, and the resulting DSEC energies were used for construction of the ground-state PES for each symmetry. The many-body component of the DSEC energies for the three-dimensional (3)A' and (3)A '' PESs was then least-squares fitted in terms of permutationally invariant polynomials in mixed exponential-Gaussian bond order variables. The global and local minima as well as the transition structures of both the (3)A' and the (3)A '' analytic PES were explored. In agreement with previous work, we find that the reverse reaction is barrierless on the (3)A '' surface along the minimum energy pathway. However, we have explored several new local minima and transition structures on the (3)A' PES. Furthermore, based on the newly found minima and transition structures, two independent reaction mechanisms have been illustrated for the reaction path on the (3)A' PES. The analytic surfaces may be used for dynamics calculations of electronically adiabatic reactive scattering and energy transfer. (C) 2016 AIP Publishing LLC.