Statistics of Long-Range Force Fields in Random Environments: Beyond Holtsmark
Abstract
Since the times of Holtsmark (1911), statistics of fields in random environments have been widely studied, for example in astrophysics, active matter, and line-shape broadening. The power-law decay of the two-body interaction, of the form , and assuming spatial uniformity of the medium particles exerting the forces, imply that the fields are fat-tailed distributed, and in general are described by stable L\'evy distributions. With this widely used framework, the variance of the field diverges, which is non-physical, due to finite size cutoffs. We find a complementary statistical law to the L\'evy-Holtsmark distribution describing the large fields in the problem, which is related to the finite size of the tracer particle. We discover bi-scaling, with a sharp statistical transition of the force moments taking place when the order of the moment is , where is the dimension. The high-order moments, including the variance, are described by the framework presented in this paper, which is expected to hold for many systems. The new scaling solution found here is non-normalized similar to infinite invariant densities found in dynamical systems.
Cite
@article{arxiv.2306.16319,
title = {Statistics of Long-Range Force Fields in Random Environments: Beyond Holtsmark},
author = {Avraham Samama and Eli Barkai},
journal= {arXiv preprint arXiv:2306.16319},
year = {2023}
}
Comments
9 pages 2 figures