The large-N Yang--Mills Λ-parameter from step scaling

Abstract

We use the step-scaling method and results obtained at N = 3, 5 and 8 to determine the N-dependence of the dynamically generated scale Λ of SU(N) Yang--Mills theories. We implement the step-scaling method in a suitable finite-volume renormalization scheme based on twisted boundary conditions, introduced to effectively achieve large-N volume independence, and on a coupling defined through the gradient flow. In the MS scheme, we obtain the following values in terms of the gradient flow scale t0: 8t0ΛMS = 0.577(23), 0.632(32), and 0.611(43) for N=3,5 and 8, respectively. They extrapolate to a large-N value of: 8t0ΛMS (N=∞) = 0.639(36), and the N-dependence is given by 8t0ΛMS(N)=0.639(36)[1-0.85(62)/N2+O(1/N4)]. This work represents the first calculation of the Yang--Mills Λ-parameter in the large-N limit that does not rely on asymptotic scaling strategies.

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