The Transformation of Centaurs into Jupiter-family Comets

Article

Wood, Jeremy and Hinse, Tobias C.. 2022. "The Transformation of Centaurs into Jupiter-family Comets." The Astrophysical Journal: an international review of astronomy and astronomical physics. 929. https://doi.org/10.3847/1538-4357/ac5964
Article Title

The Transformation of Centaurs into Jupiter-family Comets

ERA Journal ID1057
Article CategoryArticle
AuthorsWood, Jeremy and Hinse, Tobias C.
Journal TitleThe Astrophysical Journal: an international review of astronomy and astronomical physics
Journal Citation929
Article Number157
Number of Pages13
Year2022
PublisherIOP Publishing
Place of PublicationUnited States
ISSN0004-637X
1538-4357
Digital Object Identifier (DOI)https://doi.org/10.3847/1538-4357/ac5964
Web Address (URL)https://iopscience.iop.org/article/10.3847/1538-4357/ac5964
Abstract

Centaurs are an ephemeral class of objects that can evolve into Jupiter-family comets (or JFCs) due to gravitational perturbations from the giant planets. In this work, we use numerical integration of massless test particles in the six-body problem (the Sun, four giant planets, and a test particle) to study the transformation of Centaurs into JFCs. We find that Centaurs can transform into JFCs via a rapid, continuous drop in perihelion or aphelion distance to a value below 5.2 au or 7 au, respectively, typically within 5 yr from the start of the drop. We call these JFC perihelion drops and JFC aphelion drops, respectively. These drops are correlated with close approaches to Jupiter. For such perihelion and aphelion drops, the maximum possible fractional change in the associated perihelion or aphelion distance increases with decreasing close-approach distance to Jupiter. A perihelion barrier may exist at 6.3 au. If so, then it must be crossed from above in order for a Centaur to transform into a JFC due to a single close approach to Jupiter. Currently, 93 (or 11%) of the known Centaurs have a perihelion distance, q, below 6.3 au. If the inclination of the orbit of the Centaur to the ecliptic plane is above 10fdg2, then orbits with q > 6.3 au and 2 < TJ < 3 can exist, where TJ is the Tisserand parameter with respect to Jupiter. Small bodies in such orbits could be classified as either Centaurs or JFCs.

KeywordsJupiter-family Comets; Small Solar System bodies; Comets
Byline AffiliationsUniversity of Southern Queensland
American Military University, United States
Nicolaus Copernicus University, Poland
Chungnam National University, Korea
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