Positron scattering and annihilation in hydrogen-like ions

TL;DR

This paper uses many-body theory to calculate positron scattering and annihilation rates in hydrogen-like ions, revealing how electron-positron correlations and Coulomb effects influence annihilation characteristics.

Contribution

It provides detailed calculations of annihilation rates and spectra in H-like ions, highlighting the dominant role of vertex corrections and scaling laws for enhancement factors.

Findings

Annihilation rate suppression is governed by the Gamow factor.

Vertex corrections mainly enhance the annihilation rate.

Results agree well with other computational methods.

Abstract

Diagrammatic many-body theory is used to calculate the scattering phase shifts, normalized annihilation rates $Z_{\rm eff}$ and annihilation gamma spectra for positron collisions with the hydrogen-like ions He$^+$, Li$^{2+}$, B$^{4+}$ and F$^{8+}$. Short-range electron-positron correlations and longer-range positron-ion correlations are accounted for by evaluating nonlocal corrections to the annihilation vertex and the exact positron self-energy. The numerical calculation of the many-body theory diagrams is performed using B-spline basis sets. To elucidate the r\^ole of the positron-ion repulsion, the annihilation rate is also estimated analytically in the Coulomb-Born approximation. It is found that the energy dependence and magnitude of $Z_{\rm eff}$ is governed by the Gamow factor that characterizes the suppression of the positron wave function near the ion. For all of the H-like ions, the correlation enhancement of the annihilation rate is found to be predominantly due to corrections to the annihilation vertex, while the corrections to the positron wave function play only a minor r\^ole. Results of the calculations for $s$, $p$ and d-wave incident positrons of energies up to the positronium formation threshold are presented. Where comparison is possible, our values are in excellent agreement with the results obtained using other, e.g., variational, methods. The annihilation vertex enhancement factors obtained in the present calculations are found to scale approximately as $1+(1.6+0.46\ell)/Z_i$, where $Z_i$ is the net charge of the ion and $\ell$ is the positron orbital angular momentum. Our results for positron annihilation in H-like ions provide insights into the problem of positron annihilation with core electrons in atoms and condensed matter systems, which have similar binding energies.