Vibrational autoionization of state-selective jet-cooled methanethiol (CH3SH) investigated with infrared plus vacuum-ultraviolet photoionization

Abstract

Vibrational autoionization of Rydberg states provides key information about nonadiabatic processes above an ionization threshold. We employed time-of-flight mass detection of CH3SH+ to record vibrational-state selective photo-ionization efficiency (PIE) spectra of jet-cooled methanethiol (CH3SH) on exciting CH3SH to a specific vibrationally excited state with an infrared (IR) laser, followed by excitation with a tunable laser in the vacuum-ultraviolet (VUV) region for ionization. Autoionizing Rydberg states assigned to the ns, np, nd and nf series are identified. When IR light at 2601 (nu(3), SH stretching mode) and 2948 cm(-1) (nu(2), CH3 symmetric stretching mode) was employed, the Rydberg series converged to the respective vibrationally excited (nu(3) and nu(2)) states of CH3SH+. When IR light at 3014 cm(-1) (overlapped nu(1)/nu(9), CH3 antisymmetric stretching and CH2 antisymmetric stretching modes) was employed, Rydberg series converging to two vibrationally excited states (nu(1) and nu(9)) of CH3SH+ were observed. When IR light at 2867 cm(-1) (2 nu(10), overtone of CH3 deformation mode) and 2892 cm(-1) (2 nu(4), overtone of CH2 scissoring mode) was employed, both Delta nu = 01 and Delta nu = -2 ionization transitions were observed; there is evidence for direct ionization from the initial state into the CH3SH+ (nu(+)(4) = 1) continuum. In all observed IR-VUV-PIE spectra, the ns and nd series show intensity greater than the other Rydberg series, which is consistent with the fact that the highest-occupied molecular orbital of CH3SH is a p-like lone pair orbital on the S atom. The quantum yields for autoionization of various vibrational excited states are discussed. Values of nu(1) = 3035, nu(2) = 2884, nu(3) = 2514, and nu(9) = 2936 cm(-1) for CH3SH+ derived from the converged limits agree satisfactorily with values observed for Ar-tagged CH3SH+ at 3026, 2879, 2502, and 2933 cm(-1).