Nongravitational Accelerations on Comets

Steven R. Chesley; Donald K. Yeomans

doi:10.1017/S1743921304008786

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.

The orbital motion of comets is difficult to characterize accurately due to the rocket-like outgassing of material from the cometary nucleus. The resulting nongravitational accelerations often appear to be fundamentally stochastic in nature and thus pose severe modeling challenges in orbit determination, especially when the comet has been observed for many revolutions. Even so, new techniques have arisen in recent years that give new insight, not only into the motion of the comets, but also into their physical characteristics and spin states. These approaches include modeling of spin axis precession over many decades and the consideration of the seasonal variation in the thrust from discrete jets acting on a rotating nucleus. Such advances have been enabled, in part, by the increasing efforts and capabilities of comet observers worldwide as more and more comets with longer and longer observing arcs become available for study. In this review we specifically consider the application of the Rotating Jet Model to several space mission targets, indicating how this model can often be used to infer the orientation of a comet's spin axis.To search for other articles by the author(s) go to: http://adsabs.harvard.edu/abstract_service.html

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Milani, Andrea Burns, Joseph A. Hadjidemetriou, J. Knežević, Z. Beaugé, C. Erdi, B. Fukushima, T. Heggie, D.C. Lemaitre, A. Maciejewski, A. Morbidelli, A. Sidlichovský, M. Vokrouhlický, D. and Zhou, J.-L. 2005. COMMISSION 7: Celestial Mechanics and Dynamical Astronomy. Proceedings of the International Astronomical Union, Vol. 1, Issue. T26A, p. 7.

Królikowska, M. and Szutowicz, S. 2006. Non-gravitational motion of the Jupiter-family comet 81P/Wild 2. Astronomy & Astrophysics, Vol. 448, Issue. 1, p. 401.

Lamy, P. L. Toth, I. Weaver, H. A. Jorda, L. Kaasalainen, M. and Gutiérrez, P. J. 2006. Hubble Space Telescope observations of the nucleus and inner coma of comet 67P/Churyumov-Gerasimenko. Astronomy & Astrophysics, Vol. 458, Issue. 2, p. 669.

2008. A History of Physical Theories of Comets, From Aristotle to Whipple. Vol. 19, Issue. , p. 211.

Belton, Michael J.S. Meech, Karen J. Chesley, Steven Pittichová, Jana Carcich, Brian Drahus, Michal Harris, Alan Gillam, Stephen Veverka, Joseph Mastrodemos, Nicholas Owen, William A’Hearn, Michael F. Bagnulo, S. Bai, J. Barrera, L. Bastien, Fabienne Bauer, James M. Bedient, J. Bhatt, B.C. Boehnhardt, Hermann Brosch, N. Buie, Marc Candia, Pablo Chen, W.-P. Chiang, P. Choi, Young-Jun Cochran, A. Crockett, Christopher J. Duddy, S. Farnham, Tony Fernández, Yan R. Gutiérrez, Pedro Hainaut, Olivier R. Hampton, Donald Herrmann, Kimberly A. Hsieh, Henry Kadooka, M.A. Kaluna, H. Keane, J. Kim, M.-J. Klaasen, Kenneth Kleyna, J. Krisciunas, Kevin Lara, Luisa M. Lauer, Tod R. Li, Jian-Yang Licandro, Javier Lisse, Carey M. Lowry, Stephen C. McFadden, Lucy Moskovitz, N. Mueller, Beatrice Polishook, D. Raja, N.S. Riesen, T. Sahu, D.K. Samarasinha, Nalin Sarid, G. Sekiguchi, Tomohiko Sonnett, S. Suntzeff, Nicholas B. Taylor, Brian W. Thomas, Peter Tozzi, Gian Paolo Vasundhara, R. Vincent, J.-B. Wasserman, Lawrence H. Webster-Schultz, Bryant Yang, B. Zenn, T. and Zhao, H. 2011. Stardust-NExT, Deep Impact, and the accelerating spin of 9P/Tempel 1. Icarus, Vol. 213, Issue. 1, p. 345.

Chesley, S.R. Belton, M.J.S. Carcich, B. Thomas, P.C. Pittichová, J. Klaasen, K.P. Li, J.-Y. Farnham, T.L. Gillam, S.D. Harris, A.W. and Veverka, J. 2013. An updated rotation model for Comet 9P/Tempel 1. Icarus, Vol. 222, Issue. 2, p. 516.

Farnocchia, D. Chesley, S.R. Micheli, M. Delamere, W.A. Heyd, R.S. Tholen, D.J. Giorgini, J.D. Owen, W.M. and Tamppari, L.K. 2016. High precision comet trajectory estimates: The Mars flyby of C/2013 A1 (Siding Spring). Icarus, Vol. 266, Issue. , p. 279.

Azadmanesh, M. Roshanian, J. and Hassanalian, M. 2023. On the importance of studying asteroids: A comprehensive review. Progress in Aerospace Sciences, Vol. 142, Issue. , p. 100957.

Yang, Wanling Yan, Jianguo Sun, Shangbiao Wang, Zhen Deng, Qingyun and Barriot, Jean-Pierre 2024. Contribution of landmark-tracking data to the estimation of the gravity field and rotation parameters of 311P/PANSTARRS for the incoming Tianwen-2 space mission. Icarus, Vol. 420, Issue. , p. 116210.

Article contents

Nongravitational Accelerations on Comets

Abstract

Keywords

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Nongravitational Accelerations on Comets

Abstract

Keywords

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests