Entanglement in ttbar production at lepton colliders is typically reduced by scalar mediators but shows sizable deviations in U(1)B-L and Randall-Sundrum models, positioning quantum-information observables as probes for new neutral interactions.
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No evidence found for heavy resonances decaying to Higgs pairs; sets the most sensitive LHC upper limits on X to HH to bb tau tau in the 1.4-4.5 TeV mass range.
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Disentangling new physics with quantum entanglement in $t\bar{t}$ production at future lepton colliders
Entanglement in ttbar production at lepton colliders is typically reduced by scalar mediators but shows sizable deviations in U(1)B-L and Randall-Sundrum models, positioning quantum-information observables as probes for new neutral interactions.
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Search for heavy resonances decaying into two Higgs bosons in the $\mathrm{b}\bar{\mathrm{b}}\,\tau^{+}\tau^{-}$ final state in proton-proton collisions at $\sqrt{s}=13~\text{TeV}$ with the CMS detector
No evidence found for heavy resonances decaying to Higgs pairs; sets the most sensitive LHC upper limits on X to HH to bb tau tau in the 1.4-4.5 TeV mass range.