Mechanics of Solids
A Journal of Russian Academy of Sciences

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Issues > Archive of Issues > 2009-3 > pp.341-351

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A. A. Il’in, N. V. Kupriyanova, and M. Yu. Ovchinnikov, "Steady-state rotational motions of a rigid body with a strong magnet in an alternating magnetic field in the presence of dissipation," Mech. Solids. 44 (3), 341-351 (2009)

Year

2009

Volume

Number

Pages

341-351

DOI

10.3103/S0025654409030029

Title

Steady-state rotational motions of a rigid body with a strong magnet in an alternating magnetic field in the presence of dissipation

Author(s)

A. A. Il’in (Keldysh Institute of Applied Mathematics, Russian Academy of Sciences, Miusskaya 4, Moscow, 125047, Russia, ilyinandrey@mail.ru)
N. V. Kupriyanova (Moscow Institute of Physics and Technology (State University), Institutskii per. 9, Dolgoprudny, Moscow District, 141700, Russia, keyna@mail.ru)
M. Yu. Ovchinnikov (Keldysh Institute of Applied Mathematics, Russian Academy of Sciences, Miusskaya 4, Moscow, 125047, Russia, ovchinni@keldysh.ru)

Abstract

We consider steady-state rotational motions of a satellite, i.e., a rigid body with a passive magnetic attitude control system consisting of a strong constant magnet and a set of magnetic hysteresis rods. We use asymptotic methods to show that in the absence of dissipation there exists a one-parameter family of steady-state rotations of the rigid body with the strong magnet and that this one-parameter family passes into an isolated solution if a model dissipation is introduced. The motion thus obtained was discovered when processing the telemetry data from the first Russian nano-satellite TNS-0 launched in 2005.

References

1.	M.Yu. Ovchinnikov, V.I. Pen'kov, I.Yu. Kiryushin, et al., Experience of Design, Creation, and Operation of Magnetic Position Control Systems for Small Satellites. Preprint No.53 (Keldysh Institute of Applied Mathematics, Russian Academy of Sciences, Moscow, 2002) [in Russian].
2.	V.A. Sarychev and M.Yu. Ovchinnikov, Magnetic Position Control Systems for the Earth's Artificial Satellites, in Summary of Science and Technology. Series: Space Researches. Vol. 23 (VINITI, Moscow, 1985) [in Russian].
3.	G. Horn and S. Regenberg, "Zur Stabilisiering eines Satelliten mit Holfe des Erdmagnetfelds," Z. Flugwiss 14 (9), 398-413 (1966).
4.	V.V. Beletskii and A.B. Novogrebel'skii, "Existence of Stable Relative Equilibria for an Artificial Satellite in a Model Magnetic Field," Astron. Zh. 50 (2), 327-335 (1973) [Sov. Astron. (Engl. Transl.) 17 (2), 213-218 (1973)].
5.	A.A. Goncharskii and A.A. Khentov, "On Some Regimes of Rotation of Magnetized Satellite-Gyrostat in the Geomagnetic Field," Izv. Vyssh. Uchebn. Zaved. Radiofiz. 15 (11), 1631-1636 (1972).
6.	V.V. Beletskii, Artificial Satellite Motion about Its Center of Mass (Nauka, Moscow, 1965) [in Russian].
7.	N.N. Moiseev, Asymptotic Methods of Nonlinear Mechanics (Nauka, Moscow, 1981) [in Russian].
8.	V.V. Beletskii and A.A. Khentov, Rotational Motion of a Magnetized Satellite (Nauka, Moscow, 1985) [in Russian].
9.	A.A. Tikhonov, "Refinement of the Oblique Dipole Model in the Evolution of Rotary Motion of a Charged Body in the Geomagnetic Field," Kosmich. Issled. 40 (2), 171-177 (2002) [Cosmic Res. (Engl. Transl.) 40 (2), 157-162 (2002)].
10.	V.V. Sidorenko, Destruction of Adiabatic Invariants in Resonances: an Example from Dynamics of Solids. Preprint No. 76 (Keldysh Institute of Applied Mathematics, Russian Academy of Sciences, Moscow, 1995) [in Russian].
11.	V.V. Sidorenko, "One Class of Motions for a Satellite Carrying a Strong Magnet," Kosmich. Issled. 40 (2), 147-155 (2002) [Cosmic Res. (Engl. Transl.) 40 (2), 133-141 (2002)].
12.	Yu.M. Urkich, A.S. Selivanov, Yu.M. Tuchin, et al., "Technological Nano-Satellite TNS-0 of Minimal Kitting," in Thesis of Report on the 3rd Conference "Microtechnologies in Aviation and Cosmonautics" (St. Petersburg, 2004), pp. 7-8.
13.	N.V. Kupriyanova, M.Yu. Ovchinnikov, V.I. Pen'kov, and A.S. Selivanov, Passive Magnetic Position Control System of the First Russian Nano-Satellite TNS-0, Preprint No. 46 (Keldysh Institute of Applied Mathematics, Russian Academy of Sciences, Moscow, 2005) [in Russian].
14.	D.A. Vallado and W.D. McClain, Fundamentals of Astrodynamics and Application (Kluwer, Space Technology Library, Netherland, 2001).

Received

18 April 2007

Link to Fulltext

http://www.springerlink.com/content/j671594k51685x70

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