Many-body theory and Gaussian-basis implementation of positron annihilation γ-ray spectra on polyatomic molecules

Abstract

Doppler-broadened γ-ray spectra for positron annihilation on molecules are calculated using many-body theory. By employing Gaussian bases for the electron and positron wavefunctions, a computable expression that involves a four-centre integral over the two-annihilation-photon momenta is derived for the γ spectra in the independent particle model approximation to the annihilation vertex, and implemented in the open-source EXCITON+ code. The influence of electron-positron correlations on the γ spectra is examined through ab initio treatment of the positron wavefunction, whilst corrections to the annihilation vertex are treated approximately via enhancement factors previously calculated [D. G. Green and G. F. Gribakin, Phys.~Rev.~Lett.~ 114, 093201 (2015)] exactly for atoms. Calculated γ spectra for furan and acetonitrile are presented for annihilation from the positron bound state with electrons of individual molecular orbitals. For such annihilation from the positron-molecule bound state, it is found that the magnitude of the partial contribution to the γ spectra from individual molecular orbitals depends not just on the orbital energies, but also on the molecular symmetry, more precisely the relative localisation of the positron and electron densities.

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