Observing [Formula omitted] spin correlations at the LHC

Spin correlations in the production of top-antitop quark ( [Formula omitted]) pairs at the Large Hadron Collider (LHC) are an experimentally verified prediction of the Standard Model. In this paper, we compute the full spin density matrix for [Formula omitted] production at next-to-leading order precision in QCD, for center-of-mass energies of 13 and 14 [Formula omitted]. We find that the additional emission of a Z boson leads to significantly different spin correlations with respect to the [Formula omitted] case, and induces small longitudinal polarisations of the top quarks. We further propose an analysis strategy that could lead to the observation of spin correlations in [Formula omitted] events at the end of Run 3 of the LHC, or possibly earlier by combining the ATLAS and CMS datasets. In addition, we show that the pure angular information contained in the spin density matrix provides novel constraints on the dimension-6 effective field theory operators relevant to the t-Z interaction, without any reference to the total production rates.