Dissociative electron attachment to pulsed supersonic O2 jet : Violation of + - selection rule and dependence on carrier gas proportion

Abstract

The formation of O- and O2- ions via dissociative electron attachment to a pulsed supersonic jet of O2 molecules containing weakly bound small van der Waals clusters seeded in a beam of argon is reported. The energy dependence of the O- and O2- yield exhibits three peaks near 7, 11 and 16 eV incident electron energies. The 7 eV peak arises from the 2u state of O2- whereas, the 11 and 16 eV peaks are ascribed to two distinct resonance states: 2g+ and 2u+ states of O2-, respectively, via a violation of the + - selection rule. The dependence of the cross-section of these two new peaks at 11 and 16 eV on the proportion of the carrier gas is also investigated and an optimum proportion has been observed experimentally which gives the lowest temperature of 14.86 K and highest Mach number of 72.31 for the pulsed supersonic jet.