Control of the drag on a spacecraft in the earth’s ionosphere using the spacecraft’s magnetic field

Autor: V. A. Shuvalov, Nikolai B. Gorev, Nikolai I. Pis'mennyi, G. S. Kochubei, N. A. Tokmak
Rok vydání: 2018
Předmět:
Zdroj: Acta Astronautica. 151:717-725
ISSN: 0094-5765
DOI: 10.1016/j.actaastro.2018.06.038
Popis: This paper shows the possibility of active control of the drag on a spacecraft in the Earth's ionosphere using the electromagnetic force produced by the interaction of the spacecraft's magnetic field with the incident plasma flow. As a result of experimental simulation of the dynamic interaction of the magnetic field of a sphere with a hypersonic flow of the rarefied ionospheric plasma, the sphere drag coefficient is determined as a function of the ratio of the magnetic pressure to the dynamic pressure in a wide range of the angle between the incident flow velocity and the magnetic field and the angle between the incident hypersonic plasma flow and the velocity of a subsonic plasma jet injected from the sphere surface. It is shown that injecting a subsonic plasma jet into the mini-magnetosphere cavity provides a several-fold increase in the drag coefficient of a “magnetized” sphere (a sphere with its own magnetic field) in a hypersonic rarefied plasma flow in comparison with a “nonmagnetized” sphere. A 0.6 … 0.8 T magnetic field of a “magnetized” body may be an efficient means for its deorbiting through increasing the drag on the body in the Earth's ionosphere, which provides a way for removing space debris objects to lower orbits.
Databáze: OpenAIRE