Title of article
Long-term dynamics of high area-to-mass ratio objects in high-Earth orbit Original Research Article
Author/Authors
Aaron J. Rosengren، نويسنده , , Daniel J. Scheeres، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2013
Pages
16
From page
1545
To page
1560
Abstract
The dynamics of high area-to-mass ratio (HAMR) objects has been studied extensively since the discovery of this debris population in near GEO orbits. A sound understanding of their nature, orbital evolution, and possible origin is critical for space situational awareness. In this paper, a new averaged formulation of HAMR object orbit evolution that accounts for solar radiation pressure, Earth oblateness, and lunisolar perturbations is explored. The first-order averaged model, explicitly given in terms of the Milankovitch orbital elements, is several hundred times faster to numerically integrate than the non-averaged counterpart, and provides a very accurate description of the long-term behavior. This model is derived and presented along with comparisons with explicit long-term numerical integrations of HAMR objects in GEO. The dynamical configuration of the Earth–Moon–Sun system was found to have a significant resonance effect with HAMR objects leading to complex evolutionary behavior. The properties of this resonant population may serve as important constraints for models of HAMR debris origin and evolution. A systematic structure associated with their distribution in inclination and ascending node phase space is identified. Given that these objects are difficult to target and correlate, this has many implications for the space surveillance community and will allow observers to implement better search strategies for this class of debris.
Keywords
High area-to-mass ratio objects , Space debris , Long-term dynamical evolution , Averaging , Orbit perturbations , Milankovitch orbital elements
Journal title
Advances in Space Research
Serial Year
2013
Journal title
Advances in Space Research
Record number
1134848
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