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Main Authors: Sun, Kai-Jia, Liu, Dai-Neng, Zheng, Yun-Peng, Chen, Jin-Hui, Ko, Che Ming, Ma, Yu-Gang
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.12015
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author Sun, Kai-Jia
Liu, Dai-Neng
Zheng, Yun-Peng
Chen, Jin-Hui
Ko, Che Ming
Ma, Yu-Gang
author_facet Sun, Kai-Jia
Liu, Dai-Neng
Zheng, Yun-Peng
Chen, Jin-Hui
Ko, Che Ming
Ma, Yu-Gang
contents Understanding the properties of hypernuclei is crucial for constraining the nature of hyperon-nucleon ($Y\text{-}N$) interactions, which plays a key role in determining the inner structure of compact stars. The lightest hypernuclei and antihypernuclei are the hypertriton ($^3_Λ\text{H}$), which consists of a pair of nucleons and a $Λ$ hyperon, and its antinucleus (${^3_{\barΛ}}\overline{\rm H}$). Significant knowledge has recently been acquired regarding the mass, lifetime, and binding energy of $^3_Λ\text{H}$. However, its exact spin, whether $\frac{1}{2}$ or $\frac{3}{2}$, remains undetermined in both experimental and theoretical studies. Here, we present a novel method of using the hypertriton global polarization in heavy-ion collisions to decipher not only its total spin but also its internal spin structure. This method is based on the finding that its three different spin structures exhibit distinct beam energy dependence of its global polarization when it is produced in these collisions from the coalescence of proton, neutron and $Λ$. Future observations of the hypertriton and antihypertriton global polarizations thus provide the opportunity to unveil the spin structures of hypertriton and antihypertriton and their production mechanisms in heavy-ion collisions.
format Preprint
id arxiv_https___arxiv_org_abs_2405_12015
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Deciphering Hypertriton and Antihypertriton Spins from Their Global Polarizations in Heavy-Ion Collisions
Sun, Kai-Jia
Liu, Dai-Neng
Zheng, Yun-Peng
Chen, Jin-Hui
Ko, Che Ming
Ma, Yu-Gang
Nuclear Theory
High Energy Physics - Phenomenology
Understanding the properties of hypernuclei is crucial for constraining the nature of hyperon-nucleon ($Y\text{-}N$) interactions, which plays a key role in determining the inner structure of compact stars. The lightest hypernuclei and antihypernuclei are the hypertriton ($^3_Λ\text{H}$), which consists of a pair of nucleons and a $Λ$ hyperon, and its antinucleus (${^3_{\barΛ}}\overline{\rm H}$). Significant knowledge has recently been acquired regarding the mass, lifetime, and binding energy of $^3_Λ\text{H}$. However, its exact spin, whether $\frac{1}{2}$ or $\frac{3}{2}$, remains undetermined in both experimental and theoretical studies. Here, we present a novel method of using the hypertriton global polarization in heavy-ion collisions to decipher not only its total spin but also its internal spin structure. This method is based on the finding that its three different spin structures exhibit distinct beam energy dependence of its global polarization when it is produced in these collisions from the coalescence of proton, neutron and $Λ$. Future observations of the hypertriton and antihypertriton global polarizations thus provide the opportunity to unveil the spin structures of hypertriton and antihypertriton and their production mechanisms in heavy-ion collisions.
title Deciphering Hypertriton and Antihypertriton Spins from Their Global Polarizations in Heavy-Ion Collisions
topic Nuclear Theory
High Energy Physics - Phenomenology
url https://arxiv.org/abs/2405.12015