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Using a finite volume gradient flow renormalization scheme with Schrödinger Functional boundary conditions, we compute the nonperturbative running coupling in the range 2.2gGF2(L)13. Careful continuum extrapolations turn out to be crucial to reach our high accuracy. The running of the coupling is always between one loop and two loop and very close to one loop in the region of 200 MeVμ=1/L4 GeV. While there is no convincing contact to two-loop running, we match nonperturbatively to the Schrödinger functional coupling with background field. In this case, we know the μ-dependence up to ∼100 GeV and can thus connect to the Λ-parameter

Dalla Brida, M., Fritzsch, P., Korzec, T., Ramos, A., Sint, S., Sommer, R. (2017). Slow running of the gradient flow coupling from 200 MeV to 4 GeV in Nf=3 QCD. PHYSICAL REVIEW D, 95(1) [10.1103/PhysRevD.95.014507].

Slow running of the gradient flow coupling from 200 MeV to 4 GeV in Nf=3 QCD

Dalla Brida, M;
2017

Abstract

Using a finite volume gradient flow renormalization scheme with Schrödinger Functional boundary conditions, we compute the nonperturbative running coupling in the range 2.2gGF2(L)13. Careful continuum extrapolations turn out to be crucial to reach our high accuracy. The running of the coupling is always between one loop and two loop and very close to one loop in the region of 200 MeVμ=1/L4 GeV. While there is no convincing contact to two-loop running, we match nonperturbatively to the Schrödinger functional coupling with background field. In this case, we know the μ-dependence up to ∼100 GeV and can thus connect to the Λ-parameter
Articolo in rivista - Articolo scientifico
Lattice QCD; QCD coupling; Non-perturbative renormalization; Gradient flow;
English
2017
95
1
014507
reserved
Dalla Brida, M., Fritzsch, P., Korzec, T., Ramos, A., Sint, S., Sommer, R. (2017). Slow running of the gradient flow coupling from 200 MeV to 4 GeV in Nf=3 QCD. PHYSICAL REVIEW D, 95(1) [10.1103/PhysRevD.95.014507].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/184386
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