Dynamics of Populations of Planetary Systems (IAU C197)
Part of Proceedings of the International Astronomical Union Symposia and Colloquia
- Editors:
- Zoran Knezevic
- Andrea Milani, Università degli Studi, Pisa
- Date Published: May 2005
- availability: Available
- format: Hardback
- isbn: 9780521852036
Hardback
Looking for an inspection copy?
Please email [email protected] to enquire about an inspection copy of this book
-
Recent advances in computational power are now enabling scientists to consider problems of population dynamics at an advanced level. The small bodies of our solar system, the planets around other stars, dust belts, space debris, etc., need to be understood as a a whole, with their collective dynamical evolution, stability and instability, order and chaos, aggregations and impacts. Important results on specific populations of celestial bodies, in addition to new methods of computation and analysis, have been obtained in the last few years. Scientists from 21 countries convened for the Colloquium "Dynamics of Populations of Planetary Systems", sponsored by the International Astronomical Union, in Belgrade (Serbia and Monte Negro). This proceedings volume reviews current understanding of the field, and is a valuable resource for professional astronomers and planetary scientists.
Read more- Valuable resource for professional astronomers and planetary scientists
- Contributions from scientists in 21 countries
- Presents the latest results in the field
Customer reviews
Not yet reviewed
Be the first to review
Review was not posted due to profanity
×Product details
- Date Published: May 2005
- format: Hardback
- isbn: 9780521852036
- length: 506 pages
- dimensions: 254 x 180 x 27 mm
- weight: 1.15kg
- contains: 218 b/w illus.
- availability: Available
Table of Contents
1. Resonances and stability of extra-solar planetary systems C. Beaugé, N. Callegari, S. Ferraz-Mello and T. A. Michtchenko
2. Formation, migration, and stability of extrasolar planetary systems Fred C. Adams
3. Dynamical evolution of extrasolar planetary systems Ji-Lin Zhou and Yi-Sui Sun
4. Dynamics of planetesimals: the role of two-body relaxation Eiichiro Kokubo
5. Fitting orbits Andrzej J. Maciejewski, Krzysztof Gozdziewski and Szymon Kozlowski
6. The secular planetary three body problem revisited Jacques Henrard and Anne-Sophie Libert
7. Dynamics of extrasolar systems at the 5/2 resonance: application to 47 UMa Dionyssia Psychoyos and John D. Hadjidemetriou
8. Our solar system as model for exosolar planetary systems Rudolf Dvorak, Áron Süli and Florian Freistetter
9. Planetary motion in double stars: the influence of the secondary Elke Pilat-Lohinger
10. Planetary orbits in double stars: influence of the binary's orbital eccentricity Daniel Benest and Robert Gonczi
11. Astrometric observations of 51 Peg and Gliese 623 at Pulkovo observatory with 65 cm refractor N. A. Shakht
12. Observations of 61 Cyg at Pulkovo Denis L. Gorshanov, N. A. Shakht, A. A. Kisselev and E. V. Poliakow
13. Formation of the solar system by instability Evgeny Griv and Michael Gedalin
14. Behaviour of a two-planetary system on a cosmogonic time-scale Konstantin V. Kholshevnikov and Eduard D. Kuznetsov
15. Boundaries of the habitable zone: unifying dynamics, astrophysics, and astrobiology Milan M. Cirkovic
16. Asteroid proper elements: recent computational progress Fernando Roig and Cristian Beaugé
17. Asteroid family classification from very large catalogues Anne Lemaitre
18. Non-gravitational perturbations and evolution of the asteroid main belt David Vokrouhlicky, M. Broz and W. F. Bottke, D. Nesvorny and A. Morbidelli
19. Diffusion in the asteroid belt Harry Varvoglis
20. Accurate model for the Yarkovsky effect David Capek and David Vokrouhlicky
21. The population of asteroids in the 2:1 mean motion resonance with Jupiter revised Miroslav Broz, D. Vokrouhlicky, F. Roig, D. Nesvorny, W. F. Bottke and A. Morbidelli
22. On the reliability of computation of maximum Lyapunov Characteristic Exponents for asteroids Zoran Knezevic and Slobodan Ninkovic
23. Nekhoroshev stability estimates for different models of the Trojan asteroids Christos Efthymiopoulos
24. The role of the resonant 'stickiness' in the dynamical evolution of Jupiter family comets A. Alvarez-Canda and F. Roig
25. Regimes of stability and scaling relations for the removal time in the asteroid belt: a simple kinetic model and numerical tests Mihailo Cubrovic
26. Virtual asteroids and virtual impactors Andrea Milani
27. Asteroid population models Alessandro Morbidelli
28. Linking Very Large Telescope asteroid observations M. Granvik, K. Muinonen, J. Virtanen, M. Delbó, L. Saba, G. De Sanctis, R. Morbidelli, A. Cellino and E. Tedesco
29. Collision orbits and phase transition for 2004 AS1 at discovery Jenni Virtanen, K. Muinonen, M. Granvik and T. Laakso
30. The size of collision solutions in orbital elements space G. B. Valsecchi, A. Rossi, A. Milani and S. R. Chesley
31. Very short arc orbit determination: the case of asteroid 2004 FU162 Steven R. Chesley
32. Nonlinear impact monitoring:
2-dimensional sampling Giacomo Tommei
33. Searching for gravity assisted trajectories to accessible near-Earth asteroids Stefan Berinde
34. KLENOT - Near Earth and other unusual objects observations Michal Kocer, Jana Tichá and M. Tichy
35. Transport of comets to the Inner Solar System Hans Rickman
36. Nongravitational Accelerations on Comets Steven R. Chesley and Donald K. Yeomans
37. Interaction of planetesimals with the giant planets and the shaping of the trans-Neptunian belt Harold F. Levison and Alessandro Morbidelli
38. Transport of comets to the outer p
Sorry, this resource is locked
Please register or sign in to request access. If you are having problems accessing these resources please email [email protected]
Register Sign in» Proceed
You are now leaving the Cambridge University Press website. Your eBook purchase and download will be completed by our partner www.ebooks.com. Please see the permission section of the www.ebooks.com catalogue page for details of the print & copy limits on our eBooks.
Continue ×Are you sure you want to delete your account?
This cannot be undone.
Thank you for your feedback which will help us improve our service.
If you requested a response, we will make sure to get back to you shortly.
×