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Hauptverfasser: Wilde, R. S., Gribakin, G. F., Fabrikant, I. I.
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2505.18776
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author Wilde, R. S.
Gribakin, G. F.
Fabrikant, I. I.
author_facet Wilde, R. S.
Gribakin, G. F.
Fabrikant, I. I.
contents We suggest that the observed large annihilation rates of ortho-positronium ($o$-Ps) in halogen gases are due to the process of dissociative Ps attachment, ${\rm Ps} + X_2 \to {\rm Ps}X + X$, where $X$ stands for a halogen atom. This process is similar to dissociative electron attachment which leads to formation of negative ions. We calculate the cross section and rate of this process for the F$_2$ molecule, for which it is exothermic, and therefore, can occur at room temperature. We start with the Ps-F$_2$ scattering calculations which take into account electron exchange and correlations within the framework of the free-electron-gas model. The calculations reveal several resonances. Similar to the process of dissociative electron attachment, a $Σ_u$ resonance contributes to the dissociative Ps attachment at thermal energies. We determine the resonance position and width as functions of the internuclear separation, and use them as inputs for the local version of the quasiclassical theory of dissociative attachment. Our calculations yield an anomalously large rate constant for the $o$-Ps annihilation process which is only one order of magnitude lower than those observed for Br$_2$ and I$_2$.
format Preprint
id arxiv_https___arxiv_org_abs_2505_18776
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Dissociative positronium attachment in halogen gases
Wilde, R. S.
Gribakin, G. F.
Fabrikant, I. I.
Atomic Physics
We suggest that the observed large annihilation rates of ortho-positronium ($o$-Ps) in halogen gases are due to the process of dissociative Ps attachment, ${\rm Ps} + X_2 \to {\rm Ps}X + X$, where $X$ stands for a halogen atom. This process is similar to dissociative electron attachment which leads to formation of negative ions. We calculate the cross section and rate of this process for the F$_2$ molecule, for which it is exothermic, and therefore, can occur at room temperature. We start with the Ps-F$_2$ scattering calculations which take into account electron exchange and correlations within the framework of the free-electron-gas model. The calculations reveal several resonances. Similar to the process of dissociative electron attachment, a $Σ_u$ resonance contributes to the dissociative Ps attachment at thermal energies. We determine the resonance position and width as functions of the internuclear separation, and use them as inputs for the local version of the quasiclassical theory of dissociative attachment. Our calculations yield an anomalously large rate constant for the $o$-Ps annihilation process which is only one order of magnitude lower than those observed for Br$_2$ and I$_2$.
title Dissociative positronium attachment in halogen gases
topic Atomic Physics
url https://arxiv.org/abs/2505.18776