NNLO PDFs driven by top-quark data

TL;DR

This paper presents a new set of parton distribution functions (PDFs) derived using top-quark data from the LHC, achieving reduced uncertainties and precise determinations of the strong coupling and top-quark mass at NNLO accuracy.

Contribution

The study introduces the ABMPtt PDFs, incorporating recent top-quark data at NNLO, with improved precision in gluon distribution, strong coupling, and top-quark mass measurements.

Findings

Reduced uncertainties in gluon PDF at large x

Precise determination of αs(MZ)=0.1150±0.0009

Top-quark mass in MSbar scheme m_t(m_t)=160.6±0.6 GeV

Abstract

We study the impact of state-of-the-art top-quark data collected at the Large Hadron Collider on parton distribution functions (PDFs). Following the ABMP methodology, the fit extracts simultaneously proton PDFs, the strong coupling $\alpha_s(M_Z)$ and heavy-quark masses at next-to-next-to-leading order (NNLO) accuracy in QCD. It includes recent high-statistics data on absolute total inclusive cross sections for $t\bar{t}+X$, the sum of $(t + X)$ and $(\bar{t} + X)$ hadroproduction, and normalized inclusive data double-differential in the invariant mass and rapidity of the $t\bar{t}$ pair at $\sqrt{S}=13$ TeV. The gluon PDF at large $x$ and the top-quark mass value derived from these data are well compatible with the previous ABMP16 results, but with significantly smaller uncertainties, reduced by up to a factor of two. At NNLO in QCD we obtain for the strong coupling the value $\alpha_s^{(n_f=5)}(M_Z)= 0.1150 \pm 0.0009$ and for the top-quark mass in the ${\overline{\mbox{MS}}}$-scheme $m_t(m_t) = 160.6 \pm 0.6$ GeV, corresponding to $m_t^{\rm pole} = 170.2 \pm 0.7$ GeV in the on-shell scheme. The new fit, dubbed ABMPtt, is publicly released in grids in LHAPDF format.