Vibrational relaxation of H2O by H2, HCl, and H2O at 295 K

Abstract

A laser induced fluorescence method has been used to measure rate constants for vibrational relaxation of the equilibrated ν₁ and ν₃ stretching level reservoir, the 2ν₂ bending overtone level, and the ν₂ bending level of H₂O by H₂ and HCl at 295 K. The rate constants for relaxation by H₂ were found to be (8.0±1.1), (29±4), and (13±2)×10⁻¹³ cm³ molecule⁻¹ s⁻¹, respectively. For relaxation by HCl the rate constants were (8.4±1.2), (47±7), and (24±4)×10⁻¹² cm³ molecule⁻¹ s⁻¹, respectively. Relaxation by intermolecular V→V transfer was experimentally determined to account for 2O stretching levels by HCl and was estimated to contribute 2O stretching levels were relaxed predominantly to the 2ν₂ level and the 2ν₂ level was relaxed predominantly to ν₂. Following direct laser excitation, the rate constant for relaxation of the equilibrated ν₁+ν₂ and ν₃+ν₂ combination vibrational levels of H₂O by H₂O was measured to be (1.6±0.2)×10⁻¹⁰ cm³ molecule⁻¹ s⁻¹. Direct relaxation to the ν₁ and ν₃ fundamental levels was experimentally determined to account for <40% of the relaxation rate constant.