English

The Poynting-Robertson Effect on Solar Sails

Space Physics 2010-12-17 v1

Abstract

We consider a special relativistic effect, known as the Poynting-Robertson effect, on various types of trajectories of solar sails. Since this effect occurs at order vϕ/cv^{\phi}/c, where vϕv^{\phi} is the tangential speed relative to the sun, it can dominate over other special relativistic effects, which occur at order v2/c2v^2/c^2. While solar radiation can be used to propel the solar sail, the absorbed portion of it also gives rise to a drag force in the tangential direction. For escape trajectories, this diminishes the cruising velocity, which can have a cumulative effect on the heliocentric distance. For a solar sail directly facing the sun in a bound orbit, the Poynting-Robertson effect decreases its orbital speed, thereby causing it to slowly spiral towards the sun. We also consider this effect for non-Keplerian orbits in which the solar sail is tilted in the azimuthal direction. While in principle the drag force could be counter-balanced by an extremely small tilt of the solar sail in the polar direction, periodic adjustments are more feasible.

Keywords

Cite

@article{arxiv.1012.3574,
  title  = {The Poynting-Robertson Effect on Solar Sails},
  author = {Roman Ya. Kezerashvili and Justin F. Vazquez-Poritz},
  journal= {arXiv preprint arXiv:1012.3574},
  year   = {2010}
}

Comments

13 pages, 8 figures. Published in the Proc. of the Second International Symposium on Solar Sailing (ISSS 2010). New York, USA, 20-22 July, 2010. Editor: R.Ya. Kezerashvili, pp. 157-162, 2010

R2 v1 2026-06-21T16:59:41.243Z