Conformation space renormalization of polymers. I. Single chain equilibrium properties using Wilsonhyphen;type renormalization

摘要

A conformation space renormalization group is developed to describe polymer excluded volume in single polymer chains. The theory proceeds in ordinary space in terms of position variables and the contour variable along the chain, and it considers polymers of fixed chain length. The theory is motivated along two lines. The first presents the renormalization group transformation as the means for extracting the macroscopic long wavelength quantities from the theory. An alternative viewpoint shows how the renormalization group transformation follows as a natural consequence of an attempt to correctly treat the presence of a cuthyphen;off length scale. It is demonstrated that the current configuration space renormalization method has a onehyphen;tohyphen;one correspondence with the Wilsonndash;Fisher field theory formulation, so our method is valid to all orders in egr; = 4minus;dwheredis the spatial dimensionality. This stands in contrast to previous attempts at a configuration space renormalization approach which are limited to first order in egr; because they arbitrarily assign monomers to renormalized rsquo;rsquo;blobs.rsquo;rsquo; In the current theory the real space chain conformations dictate the coarse graining transformation. The calculations are presented to lowest order in egr; to enable the development of techniques necessary for the treatment of dynamics in Part II. The theory is presented both in terms of the simple delta function interaction as well as using realistichyphen;type interaction potentials. This illustrates the renormalization of the interactions, the emergence of renormalized manyhyphen;body interactions, and the complexity of the theta point.