English

Dispersion Relations for Active Undulators in Overdamped Environments

Biological Physics 2025-10-02 v2 Quantitative Methods

Abstract

Organisms that locomote by propagating waves of body bending can maintain performance across heterogeneous environments by modifying their gait frequency ω\omega or wavenumber kk. We identify a unifying relationship between these parameters for overdamped undulatory swimmers (including nematodes, spermatozoa, and mm-scale fish) moving in diverse environmental rheologies, in the form of an active `dispersion relation' ωk±2\omega\propto k^{\pm2}. A model treating the organisms as actively driven viscoelastic beams reproduces the experimentally observed scaling. The relative strength of rate-dependent dissipation in the body and the environment determines whether k2k^2 or k2k^{-2} scaling is observed. The existence of these scaling regimes reflects the kk and ω\omega dependence of the various underlying force terms and how their relative importance changes with the external environment and the neuronally commanded gait.

Keywords

Cite

@article{arxiv.2407.13037,
  title  = {Dispersion Relations for Active Undulators in Overdamped Environments},
  author = {Christopher J. Pierce and Daniel Irvine and Lucinda Peng and Xuefei Lu and Hang Lu and Daniel I. Goldman},
  journal= {arXiv preprint arXiv:2407.13037},
  year   = {2025}
}
R2 v1 2026-06-28T17:45:15.399Z