Entanglement and Bell nonlocality with bottom-quark pairs at hadron colliders

In the past years, it was shown that entanglement and Bell nonlocality, which are key concepts in Quantum Mechanics, can be probed in high-energy colliders, via processes of fundamental particle scattering. Recently, it has been shown that spin correlations can be measured in pairs of bottom quarks at the LHC. Given the low mass of the bottom quark compared to typical scattering processes at the LHC, many of the bottom-quark pairs are in the ultrarelativistic regime, where they can exhibit strong spin entanglement. We find that entanglement of bottom-quark pairs may be measurable even with Run 2 data, especially with the CMS $B$ parking dataset, while observation of Bell nonlocality may become feasible at the high-luminosity phase of the LHC.
Comment: 8 pages, 2 figures