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Light quark masses in $${N_\mathrm{f}=2+1}$$ lattice QCD with Wilson fermions

2020; Springer Science+Business Media; Volume: 80; Issue: 2 Linguagem: Inglês

10.1140/epjc/s10052-020-7698-z

1434-6052

Mattia Bruno, Isabel Campos, Patrick Fritzsch, J. Koponen, Carlos Peña, David Preti, Alberto Ramos, A. Vladikas,

High-Energy Particle Collisions Research

We present a lattice QCD determination of light quark masses with three sea-quark flavours ($N_f = 2+1$). Bare quark masses are known from PCAC relations in the framework of CLS lattice computations with a non-perturbatively improved Wilson-Clover action and a tree-level Symanzik improved gauge action. They are fully non-perturbatively improved, including the recently computed Symanzik counter-term $b_{\rm A} - b_{\rm P}$. The mass renormalisation at hadronic scales and the renormalisation group running over a wide range of scales are known non-perturbatively in the Schr\"odinger functional scheme. In the present paper we perform detailed extrapolations to the physical point, obtaining (for the four-flavour theory) $m_{u/d}(2{\rm GeV}) = 3.54(12)(9)$ MeV and $m_s(2{\rm GeV}) = 95.7(2.5)(2.4)$ MeV in the $\bar{MS}$ scheme. For the mass ratio we have $m_s/m_{u/d} = 27.0(1.0)(0.4)$. The RGI values in the three-flavour theory are $M_{u/d} = 4.70(15)(12)$ MeV and $M_s = 127.0(3.1)(3.2)$ MeV.