Determination of the running coupling in pure SU(4) Yang-Mills theory

Abstract

The Schrodinger functional is used to define a renormalised coupling for pure SU(4) Yang-Mills theory, with Wilson action and suitably selected boundary conditions on the link field. The coupling, which runs with the size of the lattice, is then determined by a finite-size scaling technique through a large range of momenta, thereby allowing a connection to be made between the high energy regime and the low energy non-perturbative regime, where contact is made with the physical scale of the theory. Using data from previous SU(2) and SU(3) simulations obtained with the same technique, the running of the 't Hooft coupling defined through the Schrodinger functional is studied, and we check whether the large-N expectation that g2*N is a universal function of the energy scale E holds down to energies of the order of the string tension. Finally, we determine LambdaSF in units of the string tension as a function of N at leading order in 1/N2.