Analytical solutions for the relative motion of spacecraft subject to Lorentz-force perturbations

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• 作者：George E. Pollock ; Joseph W. Gangestad ; James M. Longuski
• 关键词：Lorentz force ; Electrostatically charged spacecraft ; Formation flight ; Orbital perturbations
• 刊名：Acta Astronautica
• 出版年：2011
• 出版时间：January-February 2011
• 年：2011
• 卷：68
• 期：1-2
• 页码：204-217
• 全文大小：969 K

文摘

A spacecraft capable of producing higher-than-natural electrostatic charges may achieve propellantless orbital maneuvering via the Lorentz-force interaction with a planetary magnetic field. Development of maneuver strategies for these propellantless vehicles is complicated by the fact that the perturbative Lorentz force acts along only a single line of action at any instant. Relative-motion dynamical models are developed that lead to approximate analytical solutions for the motion of charged spacecraft subject to the Lorentz force. These solutions indicate that the principal effects of the Lorentz force on a spacecraft in a circular orbit are to change the intrack position and to change the orbit plane. A rendezvous example is presented in which a spacecraft with a specific charge of −3.81 × 10⁻⁴ C/kg reaches a target vehicle initially 10 km away (on the same equatorial low-Earth orbit) in 1 day. Fly-around maneuvers may be achieved in low-Earth orbit with specific charges on the order of 0.001 C/kg.