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Main Authors: Jahr, Elena M., Senk, Jan, Drennhaus, Jan P., Kolorenc, Premysl, Sisourat, Nicolas, Fasshauer, Elke
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.05166
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author Jahr, Elena M.
Senk, Jan
Drennhaus, Jan P.
Kolorenc, Premysl
Sisourat, Nicolas
Fasshauer, Elke
author_facet Jahr, Elena M.
Senk, Jan
Drennhaus, Jan P.
Kolorenc, Premysl
Sisourat, Nicolas
Fasshauer, Elke
contents Interatomic Coulombic Electron Capture (ICEC) is an environment-mediated process in which a free electron attaches to a species by transferring excess energy to a neighbor. While previous theoretical investigations assumed fixed nuclei, recent studies indicate that nuclear dynamics significantly influences the ICEC process. In this work, we incorporate the vibrational motion into an analytical model of the ICEC cross section including both energy and electron transfer. To validate this approach, we compare the results to the adiabatic-nuclei approximation based on fixed-nuclei ab initio R-matrix calculations. We apply our theory to the helium-neon dimer, which is ideal for studying diverse dynamical effects. We show that while vibrational dynamics can slightly reduce ICEC efficiency, ICEC remains dominant over photorecombination and can trigger dimer dissociation. Accounting for the nuclear motion also enables to describe the broadening of the electron spectrum and enables evaluation of temperature-dependent cross sections - capabilities beyond the reach of fixed-nuclei approaches.
format Preprint
id arxiv_https___arxiv_org_abs_2505_05166
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Influence of vibrational motion and temperature on interatomic Coulombic electron capture
Jahr, Elena M.
Senk, Jan
Drennhaus, Jan P.
Kolorenc, Premysl
Sisourat, Nicolas
Fasshauer, Elke
Quantum Physics
Interatomic Coulombic Electron Capture (ICEC) is an environment-mediated process in which a free electron attaches to a species by transferring excess energy to a neighbor. While previous theoretical investigations assumed fixed nuclei, recent studies indicate that nuclear dynamics significantly influences the ICEC process. In this work, we incorporate the vibrational motion into an analytical model of the ICEC cross section including both energy and electron transfer. To validate this approach, we compare the results to the adiabatic-nuclei approximation based on fixed-nuclei ab initio R-matrix calculations. We apply our theory to the helium-neon dimer, which is ideal for studying diverse dynamical effects. We show that while vibrational dynamics can slightly reduce ICEC efficiency, ICEC remains dominant over photorecombination and can trigger dimer dissociation. Accounting for the nuclear motion also enables to describe the broadening of the electron spectrum and enables evaluation of temperature-dependent cross sections - capabilities beyond the reach of fixed-nuclei approaches.
title Influence of vibrational motion and temperature on interatomic Coulombic electron capture
topic Quantum Physics
url https://arxiv.org/abs/2505.05166