English

On Dust Devil Diameters, Occurrence Rates, and Activity

Earth and Planetary Astrophysics 2025-07-08 v1

Abstract

As a phenomenon that occurs on Earth and on Mars, the diameter of a dust devil helps determine the amount of dust the devil injects into the atmosphere for both worlds -- for a given dust flux density (dust lifted per area per time), a wider devil will lift more dust into the air. However, the factors that determine a dust devil's diameter DD and how it might relate to ambient conditions have remained unclear. Moreover, estimating the contribution to an atmospheric dust budget from a population of dust devils with a range of diameters requires an accurate assessment of the differential diameter distribution, but considerable work has yet to reveal the best representation or explain its physical basis. In this study, we propose that this distribution follows a power-law D5/3\propto D^{-5/3} and provide a simple physical explanation for why the distribution takes this form. By fitting diameter distributions of martian dust devil diameters reported in several studies, we show that the data from several studies support this proposed form. Using a previous model that treats dust devils as thermodynamic heat engines, we also show that the areal density of dust devils (number per unit area) N0N_0 scales with the product of their thermodynamic efficiency η\eta and the sensible heat flux FsF_{\rm s} as N0ηFsN_0 \propto \eta F_{\rm s}.

Keywords

Cite

@article{arxiv.2507.03643,
  title  = {On Dust Devil Diameters, Occurrence Rates, and Activity},
  author = {Brian Jackson and Lori Fenton and Ralph Lorenz and Chelle Szurgot and Joshua Gambill and Gwendolyn Arzaga},
  journal= {arXiv preprint arXiv:2507.03643},
  year   = {2025}
}

Comments

15 pages, 5 figures, accepted to PSJ

R2 v1 2026-07-01T03:46:56.813Z