Thermal energy reactions involving Ar+ monomer and dimer with N2, H2, Xe, and Kr

Abstract

Rates and products of reaction are reported for the thermal energy charge transfer of Ar⁺ and Ar⁺₂ with N₂, H₂, Xe, and Kr using a selected ion flow tube (SIFT). New rate coefficients were measured for the reactions Ar⁺+Xe→Xe⁺+Ar, Ar⁺₂+N₂ →Ar⁺⋅N₂+Ar, Ar⁺₂+H₂ →ArH⁺+H+Ar, and Ar⁺₂+H₂ →ArH⁺₂+Ar; the rates are 4.3×10⁻¹³, 2.2×10⁻¹⁰, 3.6×10⁻¹⁰, and 1.1×10⁻¹⁰ cm³/s, respectively. The finding of (Ar⋅N₂)⁺ as the product of the reaction of Ar⁺₂ with N₂ shows the bond energy of Ar⁺⋅N₂≥1.27 eV in agreement with other techniques. In the case of H₂, two reaction products are observed for reaction with Ar⁺₂: ArH⁺ (85±10%) and ArH⁺₂, but not Ar₂H⁺ as suggested by earlier studies. Lower limits for the proton affinity of Ar (3.69 eV) and the dissociation energy for H⁺₂⋅Ar (0.97 eV) are determined from the present work. Considering all the reaction rates, the proximity of the recombination energy of Ar⁺ and Ar⁺₂ to a band in the photoelectron spectrum of a specific neutral reactant offers an explanation for the observed ordering of the relative rates of the monomer and dimer reactions.