Orbital Evolution of Cloud Particles from Explosions of Geosynchronous Objects

Current orbital debris search strategies for telescopes observing in geosynchronous Earth orbit are designed around the known orbital distributions of cataloged objects. However, the majority of cataloged objects are believed to be intact spacecraft and rocket bodies, not the debris particles the se...

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Veröffentlicht in:	Journal of spacecraft and rockets 2005-11, Vol.42 (6), p.1070-1076
Hauptverfasser:	Hanada, Toshiya, Yasaka, Tetsuo
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Sprache:	eng
Schlagworte:	Explosions
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container_title	Journal of spacecraft and rockets
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creator	Hanada, Toshiya Yasaka, Tetsuo
description	Current orbital debris search strategies for telescopes observing in geosynchronous Earth orbit are designed around the known orbital distributions of cataloged objects. However, the majority of cataloged objects are believed to be intact spacecraft and rocket bodies, not the debris particles the searches are intended to locate. If there have been breakups in geosynchronous Earth orbit, the explosions may have put the debris into orbits that are significantly different from those in the catalog. Consequently, observation plans optimized for the catalog population may not be optimized for any unseen debris populations. Some hypothetical cases and a real near-synchronous U.S. Titan IIIC transtage explosion will be presented to demonstrate this effect. Perturbing accelerations to be considered for orbital evolution are the nonspherical part of the Earth's gravitational attraction and gravitational attractions due to the sun and moon. Solar radiation pressure effects are omitted in this analysis, not because they are unimportant for this type of analysis, but to concentrate on the primary orbit perturbations.
doi_str_mv	10.2514/1.11998
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source	Alma/SFX Local Collection
subjects	Explosions
title	Orbital Evolution of Cloud Particles from Explosions of Geosynchronous Objects
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