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Controlled Solar Sail Transfers into Near-Sun Regions Combined with Planetary Gravity-Assist Flybys

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Abstract

Results of numerical simulations of 'local-optimal' (or 'instantaneously optimal') trajectories of a space probe with a flat solar sail which moves from the circular Earth orbit to near-Sun regions are presented. We examine planar (ecliptic) solar sail transfer with gravity-assist flybys of Earth, Venus and Mercury. Several complex control modes of the sail tilt orientation angle for near-Sun orbits and for some 'falling onto the Sun' trajectories are investigated. The numerical simulations are used to examine the flight duration of some sail missions and to investigate the evolution of osculating elliptical orbits.

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References

  • Battin, R. H.: 1959, 'The determination of round-trip planetary reconnaissance trajectories', J. Astronautical Sci. 26(9), 545-567.

    Google Scholar 

  • Battin, R. H.: 1964, Astronautical Guidance, McGraw-Hill, New York.

    Google Scholar 

  • Egorov, V. A. and Gusev, L. I.: 1980, Dynamics of the Moon-Earth Transfers, Nauka, Moscow (in Russian).

    Google Scholar 

  • Friedman, L.: 1988, Starsailing: Solar Sails and Interstellar Travel, Wiley, New York.

    Google Scholar 

  • Forward, R. L.: 1990, 'Grey solar sails', J. Astronautical Sci. 38(2), 161-185.

    Google Scholar 

  • Kirpichnikov, S. N., Kirpichnikova, E. S., Polyakhova, E. N. and Shmyrov, A. S.: 1996, 'Planar heliocentric roto-translatory motion of a spacecraft with a solar sail of complex shape', Celest. Mech. & Dyn. Astron. 63(3-4), 255-269.

    Google Scholar 

  • Koblik, V. V., Polyakhova, E. N., Sokolov, L. L. and Shmyrov, A. S.: 1996, 'Close near-Sunapproaches using controlled heliocentric solar sailing with restrictions on thermal sail capacity', Kosmicheskie Issledovaniya 34(6), 618-625 (in Russian). English translation as: 'Controlled solar sailing transfer flights into near-Sun orbit under restrictions on sail temperature', Cosmic Res. 34(6), 572-578.

    Google Scholar 

  • Koblik, V. V., Polyakhova, E. N., Sokolov, L. L. and Shmyrov, A. S.: 1999, 'Controlled solar sail transfers to near-Sun orbits with restrictions on sail temperature', J. Astronautical Sci. 47(3-4), 189-206.

    Google Scholar 

  • Lang, K. R.: 1992, Astrophysical Data. Planets and Stars, Springer-Verlag, New York.

    Google Scholar 

  • Laplace, P. S.: 1805, Mecanique Celeste, t. 4, livre IX, Chap. II, Paris.

  • Lawden, D. F.: 1954a, 'Perturbation manoeuvres', J. Br. Interplanetary Soc. 13(6), 329-334.

    Google Scholar 

  • Lawden, D. F.: 1954b, 'Entry into circular orbits-2', J. Br. Interplanetary Soc. 13(7), 27-32.

    Google Scholar 

  • Leipold, M., Kassing, D., Eiden, M. and Herbeck, L.: 1999, 'Solar sail for space exploration-the development and demonstration of critical technologies in partnership', Bull. ESA 98, 102-107.

    Google Scholar 

  • Madonna, R. G.: 1997, Orbital Mechanics, Krieger Publisher Company, Malabar, FL.

    Google Scholar 

  • Maccone, C.: 1997, The Sun as a Gravitational Lens: Proposed Space Missions, IPI Press, Colorado Springs.

    Google Scholar 

  • Matloff, G. L.: 1999, 'Beyond the solar system: a challenge for space propulsion', NASA/ASEE Summer Faculty Fellowship Program, Marshall Space Flight Center, The University of Alabama, 5 pp.

  • McInnes, C. R.: 1999, Solar Sailing: Technology, Dynamics and Mission Applications (Springer-Praxis Series in Space Science and Technology), Springer-Verlag, Berlin.

    Google Scholar 

  • McInnes, C. R. and Brown, J. C.: 1990, 'The dynamics of solar Sails with a non-point source of radiation pressure', Celest. Mech. & Dyn. Astron. 49(3), 249-264.

    Google Scholar 

  • Polyakhova, E. N.: 1986, Space Flight with a Solar Sail, Nauka, Moscow (in Russian).

    Google Scholar 

  • Sukhanov, A. A.: 1999, 'Close approach to Sun using gravity assists of inner planets', Acta Astronautica 45(4-9), 177-185.

    Google Scholar 

  • Strobl, J.: 1993, 'The hollow body solar sail-investigations on trajectory and on material stress', 44th Congress of IAF, Graz, Austria, IAF-93-S, 3, p. 471.

    Google Scholar 

  • Wright, J. L.: 1992, Space Sailing, Gordon and Breach, New York.

    Google Scholar 

  • Zubov, V. I: 1964, Methods of A.M. Lyapunov and Their Applications, Noordhoff Ltd., Groningen, Netherlands.

    Google Scholar 

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Authors and Affiliations

  1. Tuorla Observatory, Piikkiö, FIN-21500, Finland, e-mail

    V. Koblik

  2. Faculty of Mathematics and Mechanics, Sobolev Astronomical Institute of St.-Petersburg State University, Petrodvorets, 198504, St.-Petersburg, Russia, e-mail

    E. Polyakhova & L. Sokolov

Authors
  1. V. Koblik
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  2. E. Polyakhova
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  3. L. Sokolov
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Koblik, V., Polyakhova, E. & Sokolov, L. Controlled Solar Sail Transfers into Near-Sun Regions Combined with Planetary Gravity-Assist Flybys. Celestial Mechanics and Dynamical Astronomy 86, 59–80 (2003). https://doi.org/10.1023/A:1023626917595

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  • DOI: https://doi.org/10.1023/A:1023626917595

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