Testing (asymptotic) scaling in Yang-Mills theories in the large-Nc limit
Abstract
TEK reduction is a well-established technique that allows single-site simulations of Yang-Mills theory in the large-Nc limit by exploiting volume reduction induced by twisted boundary conditions. We performed simulations for SU(841) for several gauge couplings and applied standard Wilson flow techniques combined with a tree-level improvement methodology to set the lattice scale. The wide range of gauge couplings covered by our simulations allows us to explore a region in the coupling space where our data exhibits asymptotic scaling and perturbation theory could be used to analyze the behaviour of the β-function. In this talk, I will review the methodology used and go through the main results we obtained, including a determination of the -parameter of Yang-Mills theory at large-Nc in MS-scheme.
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