N=1 super Yang-Mills on the lattice

Abstract

We present results from a numerical study of N=1 supersymmetric Yang-Mills theory using domain wall fermions. A set of dynamical simulations were performed for the gauge group SU(2) using the Wilson gauge action on 83x8 and 163x32 lattices. We considered a range of gluino masses (i.e., fifth dimension extents Ls=16-28 and input gluino mass values mf=0.01-0.04) in order to perform chiral limit extrapolations of physical quantities. In these proceedings, we summarize our findings from a study of the Dirac spectrum and present new results for the topological charge on beta=2.3, 2.353 and 2.4 ensembles.