Electron attachment to F2

Abstract

The rate constant k_a for electron attachment to F₂ has been measured at ambient (298 K) temperature T in the buffer gas Ar over the mean electron energy 〈ε〉 range 0.40–2.95 eV; similar measurements were made at T=233, 298, and 373 K in the buffer gas N₂ over the 〈ε〉 range 0.04–0.75 eV. The k_a(〈ε〉) function attains a maximum value of 1.7×10⁻⁸ cm³ s⁻¹ (T=298 K) at ∼0.04 eV and decreases monotonically with increasing 〈ε〉 above thermal energy; the magnitude of k_a increases only slightly with increasing T. The k_a(〈ε〉) data at 298 K were unfolded and the resultant cross section σ_a(ε) shows a main maximum at ∼0.0 eV, a shoulder at ∼0.5 eV, and a weak maximum at ∼1.1 eV. Possible electron attachment processes are discussed to account for the energy dependence of σ_a(ε). Also discussed, in the light of the present measurements, are published experimental and theoretical results on k_a(〈ε〉) and σ_a(ε).