Spin-orbit splittings and rotational constants for vibrationally excited levels of NCO(X2Πi)

Abstract

Laser-induced fluorescence excitation spectra at 0.3-cm⁻¹ resolution have been–obtained for the A²Σ⁺–X²Π_i system of NCO present in an atmospheric pressure CH₄–N₂O flame. This combination of selectively detected laser fluorescence and a flame environment has permitted the high-resolution investigation of levels inaccessible in conventional room temperature experiments. Spin-orbit splittings, and rotational and vibrational constants have been determined for eight vibrational levels having K = ν₂ + 1, and for the 010 ²Σ and the 020 ²Π levels, primarily by fits to band-head positions using previously determined A²Σ⁺constants. The results are in good agreement with theoretical predictions of Renner–Teller interactions. Fermi resonance with an interaction strength of 10 cm⁻¹ describes variations in spin–orbit splittings and rotational constants for four levels with ν₁ = 1 quite well.