A two-target setup in pp collisions can create tagged hyperon beams with known kinematics to enable precise measurements of hyperon-nucleon interactions and address the hyperon puzzle in neutron stars.
Chenet al., Huizhou Hadron Spectrometer – a Proposed High-rate Experimental Setup at the High Intensity Heavy-ion Accelerator Facility, (2025), arXiv:2511.22864 [hep-ex]
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A J^P=3/2- hyperon resonance at ~1.9 GeV is added to an effective Lagrangian fit of K- p to K Xi cross sections, with the Lambda* assignment preferred over Sigma* by polarization predictions.
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Unraveling the Hyperon Puzzle in Neutron Stars via Novel, High-Precision Hyperon Factories
A two-target setup in pp collisions can create tagged hyperon beams with known kinematics to enable precise measurements of hyperon-nucleon interactions and address the hyperon puzzle in neutron stars.
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A possible $\Sigma^*$ or $\Lambda^*$ resonance with $J^P=3/2^-$ in $K^-p\to K\Xi$ scattering
A J^P=3/2- hyperon resonance at ~1.9 GeV is added to an effective Lagrangian fit of K- p to K Xi cross sections, with the Lambda* assignment preferred over Sigma* by polarization predictions.