Exact gap statistics for the random average process on a ring with a tracer
Abstract
We study statistics of the gaps in Random Average Process (RAP) on a ring with particles hopping symmetrically, except one tracer particle which could be driven. These particles hop either to the left or to the right by a random fraction of the space available till next particle in the respective directions. The random fraction is chosen from a distribution . For non-driven tracer, when satisfies a necessary and sufficient condition, the stationary joint distribution of the gaps between successive particles takes an universal form that is factorized except for a global constraint. Some interesting explicit forms of are found which satisfy this condition. In case of driven tracer, the system reaches a current-carrying steady state where such factorization does not hold. Analytical progress has been made in the thermodynamic limit, where we computed the single site mass distribution inside the bulk. We have also computed the two point gap-gap correlation exactly in that limit. Numerical simulations support our analytical results.
Cite
@article{arxiv.1510.02270,
title = {Exact gap statistics for the random average process on a ring with a tracer},
author = {Julien Cividini and Anupam Kundu and Satya N. Majumdar and David Mukamel},
journal= {arXiv preprint arXiv:1510.02270},
year = {2016}
}
Comments
19 pages, 6 figures