Representation of light pressure resultant force and moment as a tensor series |
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Authors: | Nikolay Nerovny Vladimir Zimin Sergey Fedorchuk Evgeny Golubev |
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Institution: | 1.Bauman Moscow State Technical University,Moscow,Russian Federation;2.Astro Space Center of P.N. Lebedev Physical Institute,Moscow,Russian Federation |
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Abstract: | In this article, we address the problem of the determination of light pressure upon space structures with a complex geometric shape. For each surface element, we enforce a condition that it can interact with light only from its front side, a condition represented in the form of series of Chebyshev polynomials of the first kind. This Chebyshev expansion enables the use of a series of tensors of increasing rank for determination of the force and moment acting on the sail. We obtain expressions for the determination of light pressure on space structures of complex geometry, taking into account self-shadowing and reflections within the structure. We also give the expressions for tensor parametrization using the specularity coefficient in case of specular -diffuse reflection. For these expressions, we calculated the principal moment and force upon two-sided flat solar sail, spherical and cylindrical bodies, and approximated light pressure upon the proposed space-based observatory Millimetron. The proposed expressions can be used in the ballistic analysis of solar sails and other space objects significantly affected by radiation pressure. Also, these results can be used to analyze the dynamics of large-scale space structures around their center of gravity under light pressure. |
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