English

A multiple-timing analysis of temporal ratcheting

Applied Physics 2024-05-14 v2

Abstract

We develop a two-timing perturbation analysis to investigate the existence of temporal ratchets in an exemplary system of a particle moving in a tank of fluid in response to an external vibration of the tank. We consider two-mode vibrations with angular frequencies ω\omega and αω\alpha\omega, where α\alpha is a rational number. It has been established, in other physical systems, that if α\alpha is a ratio of odd and even integers (e.g., 21\tfrac{2}{1}, 32\tfrac{3}{2}, 43\tfrac{4}{3}), the system yields a net response: here, a nonzero time-average particle velocity. Our first-order and third-order two-timing perturbation schemes predict the existence of temporal ratchets for, respectively, α=2\alpha=2 and α=32\alpha=\tfrac{3}{2}, 43\tfrac{4}{3}. More importantly, we find closed form formula for the magnitude and direction of the induced net velocities for these α\alpha values.

Keywords

Cite

@article{arxiv.2210.07555,
  title  = {A multiple-timing analysis of temporal ratcheting},
  author = {Aref Hashemi and Edward T. Gilman and Aditya S. Khair},
  journal= {arXiv preprint arXiv:2210.07555},
  year   = {2024}
}
R2 v1 2026-06-28T03:37:20.607Z