Hostname: page-component-8448b6f56d-jr42d Total loading time: 0 Render date: 2024-04-23T11:12:05.043Z Has data issue: false hasContentIssue false
  • English
  • Français

Symplectic mappings

Published online by Cambridge University Press:  25 May 2016

John D. Hadjidemetriou
John D. Hadjidemetriou*
Affiliation:
University of Thessaloniki, Department of Physics GR-540 06 Thessaloniki, Greece e-mail: hadjidem@olymp.ccf.auth.gr

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

This paper reviews the main methods for constructing mapping models for Hamiltonian systems, for the study of motion in the Solar System. The emphasis is given to the relation between the various mapping techniques, the methods to check how close is a mapping model to the original system and the effects of an incomplete model on the evolution of the system.

Type
Part VII - The Calculus of Perturbations
Information
Symposium - International Astronomical Union , Volume 172: Dynamics, Ephemerides and Astrometry of the Solar System , 1996 , pp. 255 - 266
Copyright
Copyright © Kluwer 1996 

References

Chambers, J. E.: (1993) “A simple mapping for comets in resonance”. Celest, Mech, 57, 131.Google Scholar
Chirikov, B. V. and Vecheslavov, V. V.: (1986) “Chaotic dynamics of comet Haley”. preprint 86–184, Institute of Nuclear Physics, Novosibirsk.Google Scholar
Duncan, M., Quinn, T. and Tremaine, S.: (1989) “The long term evolution of orbits in the Solar System: A mapping approach”. Icarus 82, 402.Google Scholar
Ferraz-Mello, S.: (1995) preprint.Google Scholar
Froeschlé, C.: (1991) “Modelling: An aim and a tool for the study of the chaotic behaviour of asteroidal and cometary orbits”. In Predictability, Stability and Chaos in N-Body Dynamical Systems, Roy, A. E. (ed), Plenum Press, p. 125155.Google Scholar
Hadjidemetriou, J. D.: (1991) “Mapping Models for Hamiltonian Systems with application to Resonant Asteroid Motion”. In “Predictability, Stability and Chaos in N-Body Dynamical Systems, Roy, A. E. (ed), Kluwer Publ., p. 157175.Google Scholar
Hadjidemetriou, J. D.: (1992) “The Elliptic Restricted Problem at the 3:1 Resonance”. Celest. Mech. 53, 151183.Google Scholar
Hadjidemetriou, J. D.: (1993) “Asteroid Motion near the 3:1 Resonance”. Celest. Mech. 56, 563599.Google Scholar
Hadjidemetriou, J. D. and Voyatzis, G.: (1993) “Long Term Evolution of Asteroids near a Resonance”. Celest. Mech. 56, 9596.Google Scholar
Hadjidemetriou, J. D.: (1995), “Mechanisms of Generation of Chaos in the Solar System”. In “From Newton to Chaos, Roy, A. E. and Steves, B. A., (eds), Plenum Press, 79.Google Scholar
Henrard, J.: (1995) private communication.Google Scholar
Henrard, J.: (1988) “Resonances in the Planar Elliptic Restricted Problem”. In Long Term Dynamical Behaviour of Natural and Artificial N-Body Systems, Roy, A. E. (ed), 405425, Kluwer Publ. Google Scholar
Zhou, Ji-Lin, Fu, Yan-Ning and Sun, Yi-Sui: (1994) ” Mapping models for near-conservative systems with applications”. Celest. Mech. 60, 471.Google Scholar
Laskar, J.: (1990) “The chaotic motion of the Solar System”. Icarus 88, 266291.Google Scholar
Jie, Liu and Sun, Yi-Sui: (1994) “Chaotic motion of comets in near-parabolic orbit: mapping approaches”. Celest. Mech. 60, 3.Google Scholar
Nobili, A., Milani, A., Carpino, M.: (1989) “Fundamental Frequencies and Small Divisors in the Orbits of The Outer Planets”. Astron. Astrophys. 210, 313336.Google Scholar
Murray, C. D. and Fox, K.: (1984) “Structure of the 3:1 Jovian resonance: A comparison of numerical methods”. Icarus 59, 482.Google Scholar
Petrosky, T. Y. and Broucke, R.: (1988) “Area-preserving mappings and deterministic chaos for nearly parabolic orbits”. Celest. Mech. 42, 53.Google Scholar
Sagdeev, R. Z. and Zaslavsky, G. M.: (1987), Nuovo Cimento 97, BN2.Google Scholar
Šidlichovský, M.: (1988), “On the Origin of 5/2 Kirkwood Gap” In Proceedings of the IAU Colloq. 96, The Few Body Problem (Turku), Valtonen, M. (ed.), p. 117.Google Scholar
Šidlichovský, M.: (1990), “The Existence of a Chaotic Region Due to the Overlap of Secular Resonances v 5 and v 6 Celes. Mech. Dyn. Astr. 49, 177.Google Scholar
Šidlichovský, M.: (1992) “Mapping for the asteroidal resonances”. Astron. Astrophys. 259, 341348.Google Scholar
Šidlichovský, M.: (1993) “Chaotic Behaviour of Trajectories for the Fourth and Third Order Asteroidal Resonances”. Celest. Mech. 56, 143.Google Scholar
Wisdom, J.: (1982) “The origin of the Kirkwood Gaps”. Astron. J. 87, 577593.Google Scholar
Wisdom, J.: (1983) “Chaotic Behaviour and the Origin of the 3/1 Kirkwood Gap”. Icarus 56, 5174.Google Scholar
Wisdom, J.: (1985) “A Perturbative Treatment of Motion Near the 3/1 Commensurability”. Icarus 63, 272289.Google Scholar