Fluctuations of ring polymers
Abstract
We present an exact solution for the distribution of sample averaged monomer to monomer distance of ring polymers. For non-interacting and weakly-interacting models these distributions correspond to the distribution of the area under the reflected Bessel bridge and the Bessel excursion respectively, and are shown to be identical in dimension d greater or equal 2. A symmetry of the problem reveals that dimension d and 4 minus d are equivalent, thus the celebrated Airy distribution describing the areal distribution of the one dimensional Brownian excursion describes also a polymer in three dimensions. For a self-avoiding polymer in dimension d we find numerically that the fluctuations of the scaled averaged distance are nearly identical in dimensions 2 and 3, and are well described to a first approximation by the non-interacting excursion model in dimension 5.
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Cite
@article{arxiv.1501.06151,
title = {Fluctuations of ring polymers},
author = {Shlomi Medalion and Erez Aghion and Hagai Meirovitch and Eli Barkai and David A. Kessler},
journal= {arXiv preprint arXiv:1501.06151},
year = {2019}
}
Comments
Supplementary Material added at the end of text