%0 Electronic Article
%A Cè, Marco
%A Bruno, Mattia
%A Bulava, John
%A Francis, Anthony
%A Fritzsch, Patrick
%A Green, Jeremy Russell
%A Hansen, Maxwell T.
%A Rago, Antonio
%T Hadronic observables from master-field simulations
%N DESY-22-207
%M PUBDB-2022-07860
%M DESY-22-207
%M arXiv:2301.05156
%M CERN-TH-2022-215
%D 2022
%Z 10 pages, 4 figures, 2 tables, talk presented at The 39th International Symposium on Lattice Field Theory, 8th-13th August, 2022, Rheinische Friedrich-Wilhelms-Universit\'at Bonn, Bonn, Germany
%X Substantial progress has been made recently in the generation of master-field ensembles. This has to be paired with efficient techniques to compute observables on gauge field configurations with a large volume. Here we present the results of the computation of hadronic observables, including hadron masses and meson decay constants, on large-volume and master-field ensembles with physical volumes of up to (18 fm)<sup>4</sup> and m<sub>π</sub> L up to 25, simulated using N<sub>f</sub>=2+1 stabilized Wilson fermions. We obtain sub-percent determinations from single gauge configurations with the combined use of position-space techniques, volume averages and master-field error estimation.
%K meson, decay (INSPIRE)
%K hadron, mass (INSPIRE)
%K fermion, Wilson (INSPIRE)
%K stability (INSPIRE)
%K gauge field theory (INSPIRE)
%F PUB:(DE-HGF)25
%9 Preprint
%R 10.3204/PUBDB-2022-07860
%U https://bib-pubdb1.desy.de/record/490573