Swarming: hydrodynamic alignment with pressure
Abstract
We study the swarming behavior of hydrodynamic alignment. Alignment reflects steering towards a weighted average heading. We consider the class of so-called -alignment hydrodynamics, based on -Laplacians, and weighted by a general family of symmetric communication kernels. The main new aspect here is the long time emergence behavior for a general class of pressure tensors without a closure assumption, beyond the mere requirement that they form an energy dissipative process. We refer to such pressure laws as `entropic', and prove the flocking of -alignment hydrodynamics, driven by singular kernels with general class of entropic pressure tensors. These results indicate the rigidity of alignment in driving long-time flocking behavior despite the lack of thermodynamic closure.
Keywords
Cite
@article{arxiv.2208.11786,
title = {Swarming: hydrodynamic alignment with pressure},
author = {Eitan Tadmor},
journal= {arXiv preprint arXiv:2208.11786},
year = {2022}
}