Visitors Now:
Total Visits:
Total Stories:
Profile image
By Alton Parrish (Reporter)
Contributor profile | More stories
Story Views

Now:
Last Hour:
Last 24 Hours:
Total:

Evidence Mounting for Ninth Planet Roaming Solar System’s Outer Fringes

Thursday, October 20, 2016 6:49
% of readers think this story is Fact. Add your two cents.

(Before It's News)

As the search for a hypothetical, unseen planet far, far beyond Neptune’s orbit continues, research by a team of the University of Arizona provides additional support for the possible existence of such a world and narrows the range of its parameters and location.

Led by Renu Malhotra, a Regents’ Professor of Planetary Sciences in the UA’s Lunar and Planetary Lab, the team found that the four Kuiper Belt Objects with the longest known orbital periods revolve around the Sun in patterns most readily explained by the presence of a hypothetical “Planet Nine” approximately ten times the mass of Earth. Malhotra is presenting the results at the joint 48th meeting of the Division for Planetary Sciences of the American Astronomical Society and 11th European Planetary Science Congress in Pasadena, California.
 

Possible orbit of a perturbing “ninth planet”

B4INREMOTE-aHR0cHM6Ly8xLmJwLmJsb2dzcG90LmNvbS8tZmRxcFFoWHA5SFkvV0FpbGpxNDdEcEkvQUFBQUFBQUJQemcvdUJ2X1FiWFJRVWNjczFPWnZnNU4xRGdaYVgtb1NjazhBQ0xjQi9zNjQwLzIwMTYwMTIwX3A5X2tib19leHRyYXNfb3JiaXRzXzJfX2Y1MzcuanBn

Credit: 
The six most distant known objects in the solar system with orbits exclusively beyond Neptune (magenta), including Sedna (dark magenta), all mysteriously line up in a single direction. Also, when viewed in three dimensions, they tilt nearly identically away from the plane of the solar system. Another population of Kuiper belt objects (cyan) are forced into orbits that are perpendicular to the plane of the solar system and clustered in orientation. Batygin and Brown show that a planet with 10 times the mass of the earth in a distant eccentric orbit (orange) anti-aligned with the magenta orbits and perpendicular to the cyan orbits is required to maintain this configuration.

According to the researchers’ calculations, such a hypothetical planet would complete one orbit around the Sun roughly every 17,000 years and, at its farthest point from our central star, it would swing out more than 660 astronomical units, with one AU being the average distance between the Earth and the Sun.

Scientists think that objects in the Kuiper Belt, a vast region of dwarf planets and icy rocks populating the fringes of our solar system beyond the orbit of Neptune, dance mostly to the tune of the giant planets, Saturn, Jupiter, Uranus and Neptune, influenced by their gravity either directly or indirectly.

Artistic comparison of Pluto, Eris, Makemake,Haumea, Sedna, 2007 OR10, Quaoar, Orcus, and Earth along with the Moon.
B4INREMOTE-aHR0cHM6Ly8yLmJwLmJsb2dzcG90LmNvbS8tMElPSmdKblludzAvV0FpcVh3aXFTbUkvQUFBQUFBQUJQenMvUDdDT1R4UzFKYzR5dVFINzFZLVpkMlB3bmliRENqbHZnQ0xjQi9zNjQwL0VpZ2h0VE5Pcy5wbmc=

However, there are a few known Kuiper Belt objects (KBOs) that are unlikely to be significantly perturbed by the known giant planets in their current orbits. Referred to as “extreme KBOs” (eKBOs) by the authors, all of these have extremely large orbital eccentricities, in other words, they get very close to the Sun at one point on their orbital journey, only to swing far out into space once they pass the Sun, on long elliptical orbits that take these strange mini worlds hundreds of AUs away from the Sun.

“We analyzed the data of these most distant Kuiper Belt objects,” Malhotra said, “and noticed something peculiar, suggesting they were in some kind of resonances with an unseen planet.”

In their paper, “Corralling a Distant Planet with Extreme Resonant Kuiper Belt Objects,” Malhotra and her co-authors, Kathryn Volk and Xianyu Wang, point out peculiarities of the orbits of the extreme KBOs that went unnoticed until now: they found that the orbital period ratios of these objects are close to ratios of small whole numbers. An example of this would be one KBO traveling around the Sun once while another takes twice as long, or three times as long, or four times as long etc., but not, say, 2.7 times as long.

According to the authors, such ratios could arise most naturally if the extreme KBOs’ orbital periods are in small whole number ratios with a massive planet, which would help to stabilize the highly elliptical orbits of eKBOs.

The findings bolster previous work by other scientists that showed that six of those bodies travel on highly eccentric orbits whose long axes all point in the same direction. This clustering of orbital parameters of the most distant KBOs suggested a large, planetary size body shepherding their orbits.

Another paper published earlier this year presented the results of numerical simulations providing a range of possibilities for the mass and orbit for such a hypothetical planet, that could account for the observed clustering of eKBO orbits.

This diagram shows the orbits of the planets (blue), Pluto (white), and New Horizons’ Kuiper belt target PT1 (orange), as well as the path of New Horizons (yellow). The diagram also contains dots for other cold classical Kuiper belt objects (orange dots) as well as asteroids and other Kuiper belt objects (white). The Kuiper belt dots are from a model population, based on Canada-France Ecliptic Plane Survey results. A few large Kuiper belt objects are called out in their real locations with large white dots: Eris, Makemake, and Haumea

B4INREMOTE-aHR0cHM6Ly80LmJwLmJsb2dzcG90LmNvbS8tNjl6UUk3bmRZaDAvV0FpcmdVcHlUZEkvQUFBQUFBQUJQejAvOUNSM2xHWV9aSDRHUmVBbDZ0bzd4ZnVMX0JLXzFVcUFBQ0xjQi9zNjQwL3BsdXRvX3B0MV9yb3RhdGVfZjUzNyUyQiUyNTI4MSUyNTI5LmdpZg==
Credit: Alex Parker

“Our paper provides more specific estimates for the mass and orbit that this planet would have, and, more importantly, constraints on its current position within its orbit,” Malhotra said.

The team’s calculations also suggest two likely orbital planes for the planet: one moderately close to the mean plane of the solar system and near the mean plane of the four eKBOs at about 18 degrees, and one steeper plane, inclined at about 48 degrees.

While the results provide additional support for the idea of a potential “Planet Nine” and lay out possible scenarios, the authors stress that their paper should not be considered definitive proof of the planet’s existence.

For one, the very far and faint KBOs haven’t been observed for very long, and given their minuscule apparent motion along their immensely long journeys around the Sun, the estimates for their closeness to whole number ratios of orbital periods come with uncertainties that can be narrowed down only through more observations.

The authors also note that the long orbital timescales in this region of the outer solar system may allow formally unstable orbits to persist for very long times, possibly even to the age of the solar system, without the help of orbital resonances. In this scenario, orbits whose orderly parameters appear as testimony to the stabilizing influence of an unseen planet may in fact be in the process of deterioration but haven’t been observed long enough for it to show.

Future observations and studies into the dynamical lifetimes of non-resonant planet-crossing orbits in the far regions of the outer solar system could help to further test the case for the existence and whereabouts of a ninth planet, Malhotra and her co-authors write.

 

Contacts and sources:
Daniel W. Stolte
Renu Malhotra
University of Arizona

Citation: “Corralling a Distant Planet with Extreme Resonant Kuiper Belt Objects,” Renu Malhotra, Kathryn Volk & Xianyu Wang, 2016 June 20, Astrophysical Journal letters [http://iopscience.iop.org/article/10.3847/2041-8205/824/2/L22, preprint: https://arxiv.org/abs/1603.02196].

Report abuse

Comments

Your Comments
Question   Razz  Sad   Evil  Exclaim  Smile  Redface  Biggrin  Surprised  Eek   Confused   Cool  LOL   Mad   Twisted  Rolleyes   Wink  Idea  Arrow  Neutral  Cry   Mr. Green

Top Stories
Recent Stories

Register

Newsletter

Email this story
Email this story

If you really want to ban this commenter, please write down the reason:

If you really want to disable all recommended stories, click on OK button. After that, you will be redirect to your options page.