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LHC discovers strange particle behavior that breaks existing physics models

Researchers at CERN observed unexpected spinning patterns in subatomic particles created in high-energy collisions, contradicting leading theoretical predictions. The finding challenges how physicists understand fundamental forces and could reshape models underlying next-generation particle detector development and materials research.

Originaltitel: Observation of Λ Hyperon Local Polarization in <em>p</em>-Pb Collisions at √NNs=8.16  TeV

Abstrakt

<p>The polarization of the Λ and ¯Λ hyperons along the beam direction has been measured in proton-lead (𝑝-Pb) collisions at a center-of-mass energy per nucleon pair of 8.16 TeV. The data were obtained with the CMS detector at the LHC and correspond to an integrated luminosity of 186.0±6.5  nb−1. A significant azimuthal dependence of the hyperon polarization, characterized by the second-order Fourier sine coefficient 𝑃𝑧,s⁢2, is observed. The 𝑃𝑧,s⁢2 values decrease as a function of charged particle multiplicity, but increase with transverse momentum. A hydrodynamic model that describes the observed 𝑃𝑧,s⁢2 values in nucleus-nucleus collisions by introducing vorticity effects does not reproduce either the sign or the magnitude of the 𝑝-Pb results. These observations pose a challenge to the current theoretical implementation of spin polarization in heavy ion collisions and offer new insights into the origin of spin polarization in hadronic collisions at LHC energies.</p>

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