Hostname: page-component-78c5997874-94fs2 Total loading time: 0 Render date: 2024-11-06T05:17:32.599Z Has data issue: false hasContentIssue false
  • English
  • Français

An introduction to the Kuiper Belt dynamics and collisional evolution

Published online by Cambridge University Press:  06 January 2010

T. Montmerle ,
D. Ehrenreich ,
A.-M. Lagrange  and
S. Charnoz
S. Charnoz*
Affiliation:
Équipe AIM, CEA SAp Université Paris 7, Centre de L'Orme Les Merisiers, 91190 Gif-sur-Yvette Cedex, France
Get access

Abstract

The existence of an outer belt of small bodies in the Solar System has been inferred for long. Since the first direct observation of a Kuiper Belt Object in 1992, an intensive observational and modeling effort has been made to understand the origin and evolution of the Kuiper Belt. A wealth of information is hidden in both its dynamical structure and size distribution, that we begin to unveil thanks to a complementary approach of numerical simulation and observational surveys. We review below the main structures and physical properties of the Kuiper Belt and the implications for what concern the evolution of the Solar System, after the depletion of the Solar Nebula. The Kuiper Belt can be also considered as the post-planetary disk of the Solar System, so its study helps also to better understand debris disk observed around stars our galaxy.

Type
Research Article
Information
European Astronomical Society Publications Series , Volume 41: Physics and Astrophysics of Planetary Systems , 2010 , pp. 367 - 377
Copyright
© EAS, EDP Sciences, 2010

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Allen, R.L., Bernstein, G.M., & Malhotra, R., 2001, Astroph. J., 549, L241 CrossRef
Bernstein, G.M., Trilling, D.E., Allen, R.L., et al., Astron. J., 128, 1364
Brown, M., 2001, Astron. J., 121, 2804 CrossRef
Charnoz, S., & Morbidelli, A., 2007, Icarus, 188, 468 CrossRef
Chirikov, B.V., 1960, J. Plasma Phys., 1, 253
Dermott, S.F., Murray, C.D., 1983, Nature, 301, 201 CrossRef
Dones, L., Weissman, P.R., Levison, H.F., & Duncan, M.J., 2004, Oort cloud formation and dynamics. In Comets II, ed. M.C. Festou, H.U. Keller, and H.A. Weaver (University of Arizona Press, Tucson), 153
Doressoundiram, A., Barucci, M.A., Romon, J., & Veillet, C., 2001, Icarus, 154, 277 CrossRef
Duncan, M.J., Levison, H.F., & Budd, S.M., 1995, Astron. J., 110, 3073 CrossRef
Edgeworth, K.E., 1943, J. British. Astron. Soc., 53, 181
Elliot, J.L., Kern, S.D., Clancy, K.B., et al., ApJ, 129, 1117
Gladman, B., Kavelaars, J.J., Petit, J.M., et al., Astron. J., 122, 1051
Gladman, B., & Chan, C., 2006, ApJ, 643, L135 CrossRef
Gomes, R.S., 2003, Icarus, 161, 404 CrossRef
Gomes, R., 2003, Nature, 426, 393 CrossRef
Gomes, R.S., Morbidelli, A., & Levison, H.F., 2004, Icarus, 170, 492 CrossRef
Greaves, J.S., Wyatt, M.C., Holland, W.S., & Dent, W.R.F., 2004, MNRAS, 351, L54 CrossRef
Hainaut, O.R., & Delsanti, A.C., 2002, A&A, 389, 641
Henrard, J., 1982, Cel. Mech., 27, 3 CrossRef
Ida, S., Larwood, J., & Burkert, A., 2000, Astroph. J., 528, 351 CrossRef
Jewitt, D.C., & Luu, J.X., Nature, 362, 730
Kenyon, S.J., & Bromley, B.C., 2004b, Nature, 432, 598 CrossRef
Kenyon, S.J., Bromley, B.C., O'Brien, D.P., & Davis, D.R., 2008, The Solar System Beyond Neptune, ed. M.A. Barucci, H. Boehnhardt, D.P. Cruikshank, & A. Morbidelli (University of Arizona Press, Tucson), 293
Kuiper, G.B., 1951, On the origin of the Solar System. In Astrophysics, ed. J.A. Hynek (McGraw-Hill), 357
Kenyon, S.J., Bromley, B.C., O'Brien, D.P. & Davis, D.R., 2004, Formation and Collisional Evolution of Kuiper Belt Objects. The Solar System Beyond Neptune, ed. M.A. Barucci, H. Boehnhardt, D.P. Cruikshank, and A. Morbidelli (University of Arizona Press, Tucson), 293
Kobayashi, H., & Ida, S., 2001, Icarus, 153, 416 CrossRef
Levison, H.F., & Duncan, M.J., 1997, Icarus, 127, 13 CrossRef
Levison, H.F., & Morbidelli, A., 2003, Nature, 426, 419 CrossRef
Malhotra, R., 1993, Nature, 365, 819 CrossRef
Malhotra, R., 1995, Astron. J., 110, 420 CrossRef
Morbidelli, A., 1997, Icarus, 127, 112 CrossRef
Morbidelli, A., 2002, Modern Celestial Mechanics: aspects of Solar System dynamics, in “Advances in Astronomy and Astrophysics” (Taylor & Francis, London)
Nagasawa, M., & Ida, S., 2000, Astron. J., 120, 3311 CrossRef
Peale, S.J., 1976, Annual Rev. Astron. Astrophys., 14, 215 CrossRef
Petit, J.M., Morbidelli, A., & Valsecchi, G.B., 1999, Icarus, 161, 367 CrossRef
Petit, J.-M., & Gladman, B., 2003, C.R. Phys., 4, 743753
Petit, J.M., & Mousis, O., 2004, Icarus, 168, 409 CrossRef
Petit, J.-M., Holman, M.J., Gladman, B.J., et al., 2006, MNRAS, 365, 429 CrossRef
Stern, S.A., & Colwell, J.E., 1997b, Astroph. J., 490, 879 CrossRef
Stern, A., 2002, AJ, 124, 2297 CrossRef
Tegler, S.C., & Romanishin, W., 2000, Nature, 407, 979 CrossRef
Thebault, P., & Doressoundiram, A., 2003, Icarus, 162, 27 CrossRef
Trujillo, C.A., Jewitt, D.C., & Luu, J.X., 2000, ApJ, 529, L103 CrossRef
Trujillo, C.A., & Brown, M.E., 2001, Astroph. J, 554, 95 CrossRef
Trujillo, C.A., & Brown, M.E., 2002, ApJ, 566, L125 CrossRef
Weidenschilling, S., 2003, Formation of Planetesimals/Cometesimals in the Solar nebula. in Comet II, ed. Festou et al. (University Arizona Press, Tucson, AZ), 97
Wyatt, M.C., Greaves, J.S., Dent, W.R.F., & Coulson, I.M., 2005, ApJ, 620, 492 CrossRef