Light pressure effect on the orbital evolution of objects moving in the neighborhood of low-order resonances / Kuznetsov E.D., Zakharova P.E., Glamazda D.V., Shagabutdinov A.I., Kudryavtsev S.O. // Solar System Research. - 2012. - V. 46, l. 6. - P. 442-449.

ISSN:
00380946
Type:
Article
Abstract:
The hardware-software complex of the SBG telescope of the Kourovka astronomical observatory of the Ural Federal University is described. The area-to-mass ratio of high-orbit objects was estimated from the results of positional observations at the SBG telescope. Positions and sizes of resonance zones are determined from the numerical simulation results depending on the area-to-mass ratio in the case of low-order resonances (1 : 1, 1 : 2, and 1 : 3). Secular perturbations of semimajor axes of orbits, caused by the Poynting-Robertson effect, are estimated in the neighborhood of low-order resonance zones at different area-to-mass ratios. © 2012 Pleiades Publishing, Ltd.
Author keywords:
Index keywords:
нет данных
DOI:
10.1134/S0038094612050073
Смотреть в Scopus:
https://www.scopus.com/inward/record.uri?eid=2-s2.0-84869403903&doi=10.1134%2fS0038094612050073&partnerID=40&md5=34889731cb6da1e85c78d9699c09980f
Соавторы в МНС:
Другие поля
Поле Значение
Link https://www.scopus.com/inward/record.uri?eid=2-s2.0-84869403903&doi=10.1134%2fS0038094612050073&partnerID=40&md5=34889731cb6da1e85c78d9699c09980f
Affiliations Ural Federal University, ul. Mira 19, Yekaterinburg, 620002, Russian Federation
References Aksenov, E.P., (1977) Teoriya Dvizheniya Iskusstvennykh Sputnikov Zemli (The Theory of Motion for Earth Artificial Satellites), , Moscow: Nauka; Allan, R.R., Resonance Effects due to the Longitude Dependence of the Gravitational Field of a Rotating Primary (1967) Planet. Space Sci., 15, pp. 53-76; Allan, R.R., Satellites Resonance with the Longitude-Dependent Gravity. II. Effects Involving the Eccentricity (1967) Planet. Space Sci., 15, pp. 1829-1845; Anselmo, L., Pardini, C., Dynamical Evolution of High Area-to-Mass Ratio Debris Released into GPS Orbits (2009) Adv. Space Res., 43, pp. 1491-1508; Beutler, G., (2005) Methods of Celestial Mechanics, , Berlin, Heidelberg: Springer-Verlag; Bordovitsyna, T.V., (1984) Sovremennye Chislennye Metody V Zadachakh Nebesnoi Mekhaniki (Modern Numerical Methods in Celestial Mechanics Problems), , Moscow: Nauka; Bordovitsyna, T.V., Sharkovsky, N.A., On Calculation of Relativistic Effects in Numerical Prediction of the Artificial Satellite Motion (1986) Proc. Symp. Relativity in Celestial Mechanics and Astrometry: High Precision Dynamical Theories and Observational Verifications, Leningrad, May 28-31, 1985, pp. 283-288. , Dordrecht: D. Reidel Publ; Bordovitsyna, T.V., Baturin, A.P., Avdyushev, V.A., Kulikova, P.V., Numerical Model of Motion for Earth Artificial Satellite. New Version (2007) Izv. Vyssh. Uchebn. Zaved., Fiz., 50 (12), pp. 60-65; Chao, C.C., Gick, R.A., Long-Term Evolution of Navigation Satellite Orbits: GPS/GLONASS/GALILEO (2004) Adv. Space Res., 34, pp. 1221-1226; Früh, C., Schildknecht, T., Variation of the Area-to-Mass Ratio of High Area-to-Mass Ratio Space Debris Objects (2012) Mon. Notic. Roy. Astron. Soc, 419, pp. 3521-3528; Gedeon, G.S., Terrestrial Resonance Effects on Satellite Orbits (1969) Celest. Mech., 1, pp. 167-189; Glamazda, D.V., SBG Camera at Kourovka Astronomical Observatory (2012) Astrofiz. Byull., 67 (2), pp. 242-248; Kuznetsov, E.D., Kudryavtsev, A.O., Motion Features of Geosynchronous Satellites in the Vicinities of Instable Stationary Points (2008) Kosm. Issl., 46, pp. 452-456; Kuznetsov, E.D., Zakharova, P.E., Software for Processing Earth Artificial Satellites Observations at SBG Camera at Kourovka Astronomical Observatory (2010) Okolozemnaya astronomiya-2009. Sb. tr. konf. Kazan' 22-26 avgusta 2009 g. (Proc. Conf. Near Earth Astronomy-2009. Kazan, Aug. 22-26, 2009), pp. 267-269. , Moscow; Kuznetsov, E.D., Zakharova, P.E., Glamazda, D.V., Orbital Evolution Features of Earth's Satellites with High Area-to-Mass Ratio in the Vicinity of Low Order Resonances (2011) Vestn. Sib. Gos. Aerokosm. Univ. im. Akad. M. F. Reshetneva, (6-39), pp. 148-151; Kuznetsov, E.D., The Effect of the Radiation Pressure on the Orbital Evolution of Geosynchronous Objects (2011) Solar Syst. Res., 45 (5), pp. 433-446; Lemoine, F.G., Kenyon, S.C., Factor, J.K., (1998) The Development of the Joint NASA GSFC and National Imagery and Mapping Agency (NIMA), , Geopotential Model EGM96, NASA/TP-1998-206861, GSFC; Slabinski, V.J., Poynting-Robertson Drag on Satellites Near Synchronous Altitude (1980) Bull. Am. Astron. Soc., 12, p. 741; Slabinski, V.J., Poynting-Robertson Force Allowing for Wavelength-Dependent Reflection Coefficients and Non-Spherical Shapes (1983) Bull. Am. Astron. Soc., 15, p. 869; Smirnov, M.A., Mikisha, A.M., Age-Old Evolution of High-Orbit Space Objects Caused by Light Pressure (1993) Problema Zagryazneniya Kosmosa (Kosmicheskii Musor) (Problem of Space Pollution (Space Debris)), pp. 126-142. , Moscow: Kosmosinform; Smirnov, M.A., Mikisha, A.M., Age-Old Evolution of High-Orbit Space Objects Caused by Light Pressure. Part 2. The Way to Detect Parameters Characterizing Light Pressure Effect to Geosynchronous Satellites according to Photometric Observations (1995) Stolknoveniya V Okolozemnom Prostranstve (Kosmicheskii Musor) (Collisions in Near-Earth Space (Space Debris)), pp. 252-271. , Moscow: Kosmosinform; Sochilina, A.S., On the Motion of a Satellite in Resonance with Its Rotating Planet (1982) Celest. Mech., 26, pp. 337-352; Tueva, O.N., Avdyushev, V.A., Light Pressure and Poynting-Robertson Effects onto Space Debris Dynamics (2006) Okolozemnaya Astronomiya-2005: Sb. Trudov Konf. (Proc. Conf. Near-Earth Astronomy-2005), pp. 261-267. , Yu. A. Nefed'ev, L. V. Rykhlova, M. A. Smirnov, and E. S. Bakanas (Eds.), Kazan: Kazanskii gosudarstvennyi universitet im. Ul'yanova-Lenina; Vashkov'yak, M.A., Evolution of Special Elliptic Orbits of Synchronous Earth Artificial Satellites (1991) Kosm. Issl., 29, pp. 133-144
Correspondence Address Kuznetsov, E. D.; Ural Federal University, ul. Mira 19, Yekaterinburg, 620002, Russian Federation
Language of Original Document English
Abbreviated Source Title Sol. Syst. Res.
Source Scopus