Solar wind and motion of dust grains

Details Solar wind and motion of dust grains Solar wind and motion of dust grains

2009-04-17

arxiv.org/abs/0904.2673v1

Astronomy and Astrophysics

Astrophysics

Earth and Planetary Astrophysics

24 pages, 2 figures

Scientific paper

Action of solar wind on arbitrarily shaped interplanetary dust particle is investigated. The final relativistically covariant equation of motion of the particle contains both orbital evolution and change of particle's mass. Non-radial solar wind velocity vector is also included. The covariant equation of motion reduces to the Poynting-Robertson effect in the limiting case when spherical particle is treated, the speed of the incident solar wind corpuscles tends to the speed of light and the corpuscles spread radially from the Sun. The results of quantum mechanics have to be incorporated into the physical considerations, in order to obtain the limiting case. The condition for the solar wind effect on motion of spherical interplanetary dust particle is $\vec{p}'_{out}$ $=$ (1 $-$ $\sigma'_{pr} / \sigma'_{tot}$) $\vec{p}'_{in}$, where $\vec{p}'_{in}$ and $\vec{p}'_{out}$ are incoming and outgoing radiation momenta (per unit time) measured in the proper frame of reference of the particle; $\sigma'_{pr}$ and $\sigma'_{tot}$ are solar wind pressure and total scattering cross sections. Real flux density of solar wind energy produces shift of perihelion of interplanetary dust particles. This result significantly differs from the standard treatment of the action of the solar wind on dust particles, when analogy with the Poynting-Robertson effect is stressed. Moreover, the evolution of the shift of perihelion depends on orbital position of the parent body at the time of ejection of the particle.

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