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Autori principali: Yuan, Chang-Zheng, Karliner, Marek
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2604.16028
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author Yuan, Chang-Zheng
Karliner, Marek
author_facet Yuan, Chang-Zheng
Karliner, Marek
contents The strong forces between nucleons ($N$=$p$, $n$) are fundamental to the visible universe. The interactions between hyperons (baryons with strange quarks) and nucleons are essential for the intrinsic properties of neutron stars. Whereas the interactions between nucleons ($pp$, $pn$, $nn$) have been extensively studied, the interactions between nucleons and hyperons ($NΛ$, $NΣ$, $NΞ$, $NΩ$, ...) are not well understood, due to the small amount of relevant data, limited by the scarcity of suitable hyperon sources. Here we point out and investigate a new high-quality source: hyperons produced in $pp$ collisions, such as $pp\to pK^+Λ$, $pKΣ$, $pKπΣ$, $pKKΞ$, $pKKKΩ$. At a fixed target experiment using proton beam with known momentum and liquid hydrogen target, $pp\to pK^+Λ$ can be produced copiously. By tagging $p$ and $K^+$, the flux and momentum of the $Λ$ can be determined precisely. By placing an additional target around the primary one, these $Λ$-s serve as an ideal source, enabling an unprecedentedly precise study of $Λ$ interactions with a wide range of targets. Similar methods can be used to obtain high-quality sources of other hyperons, such as $Σ$, $Ξ$ and $Ω$. These novel, high-statistics sources of hyperons with precisely known kinematics present new opportunities for applications in particle and nuclear physics, particularly in understanding the hyperon puzzle of neutron stars. We propose a new high-luminosity experiment with two nested concentric targets, optimized for such measurements. This concept can also be incorporated into existing experiments, such as HADES and CBM at FAIR, as well as proposed experiments, such as H-NS and HHaS at HIAF, by adding a second target without significant modification of the current detectors.
format Preprint
id arxiv_https___arxiv_org_abs_2604_16028
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Unraveling the Hyperon Puzzle in Neutron Stars via Novel, High-Precision Hyperon Factories
Yuan, Chang-Zheng
Karliner, Marek
Nuclear Experiment
High Energy Physics - Experiment
High Energy Physics - Phenomenology
The strong forces between nucleons ($N$=$p$, $n$) are fundamental to the visible universe. The interactions between hyperons (baryons with strange quarks) and nucleons are essential for the intrinsic properties of neutron stars. Whereas the interactions between nucleons ($pp$, $pn$, $nn$) have been extensively studied, the interactions between nucleons and hyperons ($NΛ$, $NΣ$, $NΞ$, $NΩ$, ...) are not well understood, due to the small amount of relevant data, limited by the scarcity of suitable hyperon sources. Here we point out and investigate a new high-quality source: hyperons produced in $pp$ collisions, such as $pp\to pK^+Λ$, $pKΣ$, $pKπΣ$, $pKKΞ$, $pKKKΩ$. At a fixed target experiment using proton beam with known momentum and liquid hydrogen target, $pp\to pK^+Λ$ can be produced copiously. By tagging $p$ and $K^+$, the flux and momentum of the $Λ$ can be determined precisely. By placing an additional target around the primary one, these $Λ$-s serve as an ideal source, enabling an unprecedentedly precise study of $Λ$ interactions with a wide range of targets. Similar methods can be used to obtain high-quality sources of other hyperons, such as $Σ$, $Ξ$ and $Ω$. These novel, high-statistics sources of hyperons with precisely known kinematics present new opportunities for applications in particle and nuclear physics, particularly in understanding the hyperon puzzle of neutron stars. We propose a new high-luminosity experiment with two nested concentric targets, optimized for such measurements. This concept can also be incorporated into existing experiments, such as HADES and CBM at FAIR, as well as proposed experiments, such as H-NS and HHaS at HIAF, by adding a second target without significant modification of the current detectors.
title Unraveling the Hyperon Puzzle in Neutron Stars via Novel, High-Precision Hyperon Factories
topic Nuclear Experiment
High Energy Physics - Experiment
High Energy Physics - Phenomenology
url https://arxiv.org/abs/2604.16028