Percolation on Strings and the Cover-up of the c=1 Disaster
Abstract
We study percolation on the worldsheets of string theory for c=0,1/2,1 and 2. For c<1 we find that critical exponents measured from simulations agree quite well with the theoretical values. For c=1 we show how log corrections determined from the exact solution reconcile numerical results with the KPZ predictions. We extend this analysis to the large c regime and estimate how finite-size effects will effectively raise the ground state energy, masking the presence of the tachyon for moderate values of c > 1. It thus appears likely that simulations for c=2,3 … on numerically accessible lattices will fail to even capture the qualitative behavior of the continuum limit.
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