Finding Planet Nine: apsidal anti-alignment Monte Carlo results

The distribution of the orbital elements of the known extreme trans-Neptunian objects or ETNOs has been found to be statistically incompatible with that of an unperturbed asteroid population following heliocentric or, better, barycentric orbits. Such trends, if confirmed by future discoveries of ETN...

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Published in	Monthly notices of the Royal Astronomical Society Vol. 462; no. 2; pp. 1972 - 1977
Main Authors	de la Fuente Marcos, C., de la Fuente Marcos, R.
Format	Journal Article
Language	English
Published	London Oxford University Press 21.10.2016
Subjects	Asteroids Astronomy Clustering Extreme values Monte Carlo methods Monte Carlo simulation Orbits Planets Pluto (dwarf planet) Poles methods: statistical celestial mechanics minor planets, asteroids: general Oort Cloud planets and satellites: general planets and satellites: detection
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Abstract	The distribution of the orbital elements of the known extreme trans-Neptunian objects or ETNOs has been found to be statistically incompatible with that of an unperturbed asteroid population following heliocentric or, better, barycentric orbits. Such trends, if confirmed by future discoveries of ETNOs, strongly suggest that one or more massive perturbers could be located well beyond Pluto. Within the trans-Plutonian planets paradigm, the Planet Nine hypothesis has received much attention as a robust scenario to explain the observed clustering in physical space of the perihelia of seven ETNOs which also exhibit clustering in orbital pole position. Here, we revisit the subject of clustering in perihelia and poles of the known ETNOs using barycentric orbits, and study the visibility of the latest incarnation of the orbit of Planet Nine applying Monte Carlo techniques and focusing on the effects of the apsidal anti-alignment constraint. We provide visibility maps indicating the most likely location of this putative planet if it is near aphelion. We also show that the available data suggest that at least two massive perturbers are present beyond Pluto.
AbstractList	The distribution of the orbital elements of the known extreme trans-Neptunian objects or ETNOs has been found to be statistically incompatible with that of an unperturbed asteroid population following heliocentric or, better, barycentric orbits. Such trends, if confirmed by future discoveries of ETNOs, strongly suggest that one or more massive perturbers could be located well beyond Pluto. Within the trans-Plutonian planets paradigm, the Planet Nine hypothesis has received much attention as a robust scenario to explain the observed clustering in physical space of the perihelia of seven ETNOs which also exhibit clustering in orbital pole position. Here, we revisit the subject of clustering in perihelia and poles of the known ETNOs using barycentric orbits, and study the visibility of the latest incarnation of the orbit of Planet Nine applying Monte Carlo techniques and focusing on the effects of the apsidal anti-alignment constraint. We provide visibility maps indicating the most likely location of this putative planet if it is near aphelion. We also show that the available data suggest that at least two massive perturbers are present beyond Pluto.
Author	de la Fuente Marcos, R. de la Fuente Marcos, C.
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SubjectTerms	Asteroids Astronomy Clustering Extreme values Monte Carlo methods Monte Carlo simulation Orbits Planets Pluto (dwarf planet) Poles
Title	Finding Planet Nine: apsidal anti-alignment Monte Carlo results
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