The gradient flow running coupling with twisted boundary conditions

Abstract:We measure the running of the SU(∞) 't Hooft coupling by performing a step scaling analysis of the Twisted Eguchi-Kawai (TEK) model, the SU(N ) gauge theory on a single site lattice with twisted boundary conditions. The computation relies on the conjecture that finite volume effects for SU(N) gauge theories defined on a 4-dimensional twisted torus are controlled by an effective size parameterl = l √ N , with l the torus period. We set the scale for the running coupling in terms ofl and use the gradient flow to define a renormalized 't Hooft coupling λ(l). In the TEK model, this idea allows the determination of the running of the coupling through a step scaling procedure that uses the rank of the group as a size parameter. The continuum renormalized coupling constant is extracted in the zero lattice spacing limit, which in the TEK model corresponds to the large N limit taken at fixed value of λ(l). The coupling constant is thus expected to coincide with that of the ordinary pure gauge theory at N = ∞. The idea is shown to work and permits us to follow the evolution of the coupling over a wide range of scales. At weak coupling we find a remarkable agreement with the perturbative two-loop formula for the running coupling.

Section: Jhep01(2015)038mentioning

confidence: 99%

Section: Jhep01(2015)038mentioning

confidence: 99%

Section: Jhep01(2015)038mentioning

confidence: 99%

Section: Jhep01(2015)038mentioning

confidence: 99%

Section: Jhep01(2015)038 6 Conclusionmentioning

confidence: 99%

See 3 more Smart Citations

The SU(∞) twisted gradient flow running coupling

Pérez

González-Arroyo

Keegan

et al. 2015

The twisted gradient flow coupling at one loop

Bribian

Pérez

2019

We compute the one-loop running of the SU (N ) 't Hooft coupling in a finite volume gradient flow scheme using twisted boundary conditions. The coupling is defined in terms of the energy density of the gradient flow fields at a scalel given by an adequate combination of the torus size and the rank of the gauge group, and is computed in the continuum using dimensional regularization. We present the strategy to regulate the divergences for a generic twist tensor, and determine the matching to the MS scheme at one-loop order. For the particular case in which the twist tensor is non-trivial in a single plane, we evaluate the matching coefficient numerically and determine the ratio of Λ parameters between the two schemes. We analyze the N dependence of the results and the possible implications for non-commutative gauge theories and volume independence.

The running coupling of 8 flavors and 3 colors

Fodor

Holland

Kuti

et al. 2015

We compute the renormalized running coupling of SU(3) gauge theory coupled to N f = 8 flavors of massless fundamental Dirac fermions. The recently proposed finite volume gradient flow scheme is used. The calculations are performed at several lattice spacings allowing for a controlled continuum extrapolation. The results for the discrete β-function show that it is monotonic without any sign of a fixed point in the range of couplings we cover. As a cross check the continuum results are compared with the wellknown perturbative continuum β-function for small values of the renormalized coupling and perfect agreement is found.