论文信息 - Electrodynamics of the Getaway Tether Experiment

Electrodynamics of the Getaway Tether Experiment

An electrodynamic circuit model of the interaction of a pair of small tethered satellites and the ionosphere is developed and analyzed. The system under study, the Getaway Tether Experiment (GATE), is composed of two small satellites and 1 km of insulated conducting tether. The nonlinear model has elements representing the emission, collection, and resistive flow of charge through an electrically conductive tether, plasma contactors, and the ionosphere. The circuit model is incorporated into a dynamic orbital simulation to predict mission performance. Simulation results show the feasibility to bilaterally transfer energy between stored electrical energy and orbital momentum. A transient model is also developed using the circuit model and a string of N lumped-parameter modules, each consisting of resistance, capacitance, and induced potential for the tether. Transients are shown via simulation to occur over millisecond intervals.

[1] M. Dobrowolny,et al. Electrodynamics of long metallic tethers in the ionospheric plasma , 1978 .

[2] Brian L. Murphy,et al. Potential buildup on an electron-emitting ionospheric satellite , 1967 .

[3] D. A. Arnold,et al. Transmission line model of the interaction of a long metal wire with the ionosphere , 1980 .

[4] Frank M. Perkins. Flight Mechanics of Low-Thrust Spacecraft , 1959 .

[5] M. Dobrowolny,et al. Radiation from long conducting tethers moving in the near-earth environment , 1982 .

[6] P. Banks,et al. The Tethered Balloon Current Generator - A space shuttle-tethered subsatellite for plasma studies and power generation , 1976 .

[7] Thornton Page,et al. Space Physics With Artificial Satellites , 1966 .

[8] I. Langmuir,et al. The Theory of Collectors in Gaseous Discharges , 1926 .

[9] D. E. Hastings,et al. Radiation from large space structures in low Earth orbit with induced alternating currents , 1988 .

[10] A. Barnett,et al. Radiation of plasma waves by a conducting body moving through a magnetized plasma , 1986 .

[11] M. Dobrowolny,et al. Space charge around conductors at high potential in magnetoplasma , 1984 .