The optical model potential of the $\Sigma$ hyperon in nuclear matter

J. Dabrowski; J. Rozynek

arXiv:0911.3288·nucl-th·November 18, 2009

The optical model potential of the $\Sigma$ hyperon in nuclear matter

J. Dabrowski, J. Rozynek

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TL;DR

This paper investigates the optical potential of the Sigma hyperon in nuclear matter using scattering data, atomic data, and reaction experiments, concluding that the potential is repulsive inside nuclei with a shallow attractive surface pocket.

Contribution

It provides a comprehensive analysis combining multiple data sources to determine the Sigma hyperon optical potential, aligning with the Nijmegen model F.

Findings

01

V_Sigma is repulsive inside the nucleus

02

V_Sigma has a shallow attractive pocket at the surface

03

Results are consistent with Nijmegen model F

Abstract

We present our attempts to determine the optical model potential $U_{Σ} = V_{Σ} - i W_{Σ}$ of the $Σ$ hyperon in nuclear matter. We analyze the following sources of information on $U_{Σ}$ : $Σ N$ scattering, $Σ^{-}$ atoms, and final state interaction of $Σ$ hyperons in the $(π, K^{+})$ and $(K^{-} . π)$ reactions on nuclear targets. We conclude that $V_{Σ}$ is repulsive inside the nucleus and has a shallow a tractive pocket at the nuclear surface. These features of $V_{Σ}$ are consistent with the Nijmegen model F of the hyperon-nucleon interaction.

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Taxonomy

TopicsNuclear physics research studies · Quantum, superfluid, helium dynamics · High-Energy Particle Collisions Research