# Polarization transfer in hyperon decays and its effect in relativistic   nuclear collisions

**Authors:** F. Becattini (University of Florence), Gaoqing Cao (Sun Yat-Sen, University), Enrico Speranza (University of Frankfurt)

arXiv: 1905.03123 · 2019-10-02

## TL;DR

This paper investigates how decays of certain hyperons contribute to the polarization of $	ext{Lambda}$ hyperons in high-energy nuclear collisions, finding that secondary decays do not explain the observed polarization sign discrepancy.

## Contribution

It provides a detailed calculation of the polarization transfer from $	ext{Sigma}^*(1385)$ and $	ext{Sigma}^0$ decays to $	ext{Lambda}$ hyperons, challenging previous explanations for polarization discrepancies.

## Key findings

- Secondary decays have a similar polarization pattern to primary $	ext{Lambda}$s.
- Decays cannot explain the sign discrepancy in experimental polarization data.
- Polarization from secondary decays is negligible around midrapidity.

## Abstract

We calculate the contribution to the polarization of $\Lambda$ hyperons in relativistic nuclear collisions at high energy from the decays of $\Sigma^*(1385)$ and $\Sigma^0$, which are the predominant sources of $\Lambda$ production besides the primary component, as a function of the $\Lambda$ momentum. Particularly, we estimate the longitudinal component of the mean spin vector as a function of the azimuthal angle in the transverse plane, assuming that primary $\Sigma^*$ and $\Sigma^0$ polarization follow the predictions of local thermodynamic equilibrium in a relativistic fluid. Provided that the rapidity dependence around midrapidity of polarization is negligible, we find that this component of the overall spin vector has a very similar pattern to the primary one. Therefore, we conclude that the secondary decays cannot account for the discrepancy in sign between experimental data and hydrodynamic model predictions of the longitudinal polarization of $\Lambda$ hyperons recently measured by the STAR experiment at RHIC.

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/1905.03123/full.md

## References

39 references — full list in the complete paper: https://tomesphere.com/paper/1905.03123/full.md

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Source: https://tomesphere.com/paper/1905.03123