An experimental and theoretical characterization of the electronic structure of doubly ionised disulfur

Abstract

AbstractUsing time-of-flight multiple electron and ion coincidence techniques in combination with a helium gas discharge lamp and synchrotron radiation, the double ionisation spectrum of disulfur (S$$_2$$ 2 ) and the subsequent fragmentation dynamics of its dication are investigated. The S$$_2$$ 2 sample was produced by heating mercury sulfide (HgS), whose vapour at a suitably chosen temperature consists primarily of two constituents: S$$_2$$ 2 and atomic Hg. A multi-particle-coincidence technique is thus particularly useful for retrieving spectra of S$$_2$$ 2 from ionisation of the mixed vapour. The results obtained are compared with detailed calculations of the electronic structure and potential energy curves of S$$_2^{2+}$$ 2 2 + which are also presented. These computations are carried out using configuration interaction methodology. The experimental results are interpreted with and strongly supported by the computational results.