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Hauptverfasser: Kuberski, Simon, Conigli, Alessandro, Fritzsch, Patrick, Gérardin, Antoine, Heitger, Jochen, Herdoíza, Gregorio, Pena, Carlos, Simma, Hubert, Sommer, Rainer
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2603.25295
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author Kuberski, Simon
Conigli, Alessandro
Fritzsch, Patrick
Gérardin, Antoine
Heitger, Jochen
Herdoíza, Gregorio
Pena, Carlos
Simma, Hubert
Sommer, Rainer
author_facet Kuberski, Simon
Conigli, Alessandro
Fritzsch, Patrick
Gérardin, Antoine
Heitger, Jochen
Herdoíza, Gregorio
Pena, Carlos
Simma, Hubert
Sommer, Rainer
contents We present a determination of the charm- and bottom-quark masses using the heavy-quark step-scaling strategy. Renormalization is performed in small volumes where relativistic bottom quarks can be simulated directly. A sequence of finite-volume simulations connects this calculation to large-volume CLS ensembles, where simulations at physical light and strange quark masses provide reliable control over low-energy hadronic physics. In all but the smallest volume, the B-scale is reached by interpolating between relativistic heavy-quark data and the static limit. The resulting quark masses are obtained with good precision, with subdominant systematic uncertainties that differ from, and thus complement, those of standard large-volume determinations.
format Preprint
id arxiv_https___arxiv_org_abs_2603_25295
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Heavy quark masses from step-scaling
Kuberski, Simon
Conigli, Alessandro
Fritzsch, Patrick
Gérardin, Antoine
Heitger, Jochen
Herdoíza, Gregorio
Pena, Carlos
Simma, Hubert
Sommer, Rainer
High Energy Physics - Lattice
We present a determination of the charm- and bottom-quark masses using the heavy-quark step-scaling strategy. Renormalization is performed in small volumes where relativistic bottom quarks can be simulated directly. A sequence of finite-volume simulations connects this calculation to large-volume CLS ensembles, where simulations at physical light and strange quark masses provide reliable control over low-energy hadronic physics. In all but the smallest volume, the B-scale is reached by interpolating between relativistic heavy-quark data and the static limit. The resulting quark masses are obtained with good precision, with subdominant systematic uncertainties that differ from, and thus complement, those of standard large-volume determinations.
title Heavy quark masses from step-scaling
topic High Energy Physics - Lattice
url https://arxiv.org/abs/2603.25295