Related papers: Low-energy $S$-wave scattering of $\text{H}+e^-$ by a Lagrange-mesh method

Low-energy $S$-wave scattering of $\text{H}+e^-$ by a Lagrange-mesh method

URL: http://arxiv.org/abs/2404.04191v1
Date: Fri, 5 Apr 2024 16:03:07 GMT
Title: Low-energy $S$-wave scattering of $\text{H}+e^-$ by a Lagrange-mesh method
Authors: Jean Servais, Jérémy Dohet-Eraly,
Abstract summary: Resonance parameters can be obtained from values of the $mathcalS$ matrix at several scattering energies. The computed phase shifts are at least as accurate as the literature results, and the resonance parameters are more accurate than the literature best results by several orders of magnitude.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: A method combining the Lagrange-mesh and the complex Kohn variational methods is developed for computing the $\mathcal{S}$ matrix of a 2$+$1 elastic scattering in the frame of three-body Coulomb systems. Resonance parameters can be obtained from values of the $\mathcal{S}$ matrix at several scattering energies. The method is illustrated with the $S$-wave low-energy scattering of an electron onto hydrogen. The computed phase shifts are at least as accurate as the literature results, and the resonance parameters are more accurate than the best literature results by several orders of magnitude. Both the infinite and finite proton mass cases are considered.

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