Laser photofragment spectroscopy of NO+. I. Predissociation of the 2 3Π state

Abstract

NO⁺ ions, produced by electron impact on NO, are observed to predissociate into O⁺(⁴S⁰)+N(⁴S⁰) when irradiated by a dye laser at wavelengths between 6600–5650 Å. The highly structured wavelength dependence of the photofragments reflects absorptions from three vibrational levels in a long‐lived NO⁺ electronic state to 20 vibrational levels of a predissociated electronic state. The transitions are tentatively identified as 2 ³Π(v′ = 0–19)←b′ ³Σ⁻(v″ = 8–10). The weakly bound 2 ³Π state is found to lie 0.698–0.925 eV above the lowest separated atom limit of NO⁺ and to adiabatically correlate to the N⁺(³P)+O(³P) limit. This state is also found to be homogeneously perturbed, most likely by the ³Π state arising from the O⁺(⁴S⁰)+N(²D⁰) limit, and to be predissociated by the α ⁵Σ⁺ state. The predissociation lifetimes for all rotational levels in v′ = 0–8 are ≥1.6 ns. Perturbations in b′ ³Σ⁻(v = 9) are discussed.