A Blocking Technique for Emulating Very Large Polyelectrolytes
Abstract
A new Monte Carlo method for computing thermodynamical properties of very large polyelectrolytes is presented. It is based on a renormalization group relating the original polymer to a smaller system, where in addition to the naively rescaled forces, a corrective nearest-neighbor interaction originating from the short distance Coulomb cutoff is introduced. The method is derived for low T but is in the unscreened case valid for all T. Large polymers with N monomers are emulated by Monte Carlo calculations on smaller systems, K=N/Q. The computational gain of the method is Q^3. It is explored with emphasis on room temperature. Results for N=10000 are presented.