Orbital dynamics of a solar sail accelerated by thermal desorption of coatings

TL;DR

This paper explores how thermal desorption of coatings on a solar sail, triggered at specific distances from the Sun, can enhance propulsion for space exploration, analyzing different transfer scenarios and multi-stage acceleration.

Contribution

It introduces a novel concept of using thermal desorption coatings on solar sails to provide additional acceleration beyond traditional radiation pressure.

Findings

Thermal desorption can significantly boost solar sail acceleration.

Different transfer strategies affect the effectiveness of desorption-based propulsion.

Multi-stage coatings enable staged acceleration at various heliocentric distances.

Abstract

In this study we considered a solar sail coated with materials that undergo thermal desorption at a specific temperature, as a result of heating by solar radiation at a particular heliocentric distance. Three different scenarios, that only differ in the way the sail approaches the Sun, were analyzed and compared. In every case once the perihelion is reached, the sail coat undergoes thermal desorption. When the desorption process ends, the sail then escapes the Solar System having the conventional acceleration due to solar radiation pressure. Thermal desorption here comes as an additional source of solar sail acceleration beside traditional propulsion systems for extrasolar space exploration. The compared scenarios are the following: i. Hohmann transfer plus thermal desorption. In this scenario the sail would be carried as a payload to the perihelion with a conventional propulsion system by an Hohmann transfer from Earth's orbit to an orbit very close to the Sun (almost at 0.1 AU) and then be deployed there. ii. Elliptical transfer plus Slingshot plus thermal desorption. In this scenario the transfer occurs from Earth's orbit to Jupiter's orbit. A Jupiter's fly-by leads to the orbit close to the Sun, where the sail is deployed. iii. Two stage acceleration of the solar sail through thermal desorption. The proposed sail has two coats of the materials that undergo thermal desorption at different temperatures depending on the heliocentric distance. The first desorption occurs at the Earth orbit and provides the thrust needed to propel the solar sail toward the Sun. The second desorption is equivalent to that of the other scenarios.