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Another Trans-Neptunian Object With a High Orbital Inclination Points to Planet Nine

posted by cmn32480 on Thursday May 17 2018, @02:34PM   Printer-friendly
from the pluto-is-gonna-be-pissed dept.

takyon writes:

2015 BP519, nicknamed "Caju", is another extreme trans-Neptunian object that points to the existence of Planet Nine. Discovered with data from the Dark Energy Survey, Caju has a relatively large diameter, estimated at around 400-700 km, meaning the object could be a gravitationally rounded dwarf planet. It also has a highly inclined orbit of 54°, which a team of scientists says can be explained by the presence of the hypothetical Planet Nine:

After discovering it, the team tried to investigate 2015 BP519's origins using computer simulations of the Solar System. However, these tests were not able to adequately explain how the object had ended with such an orbit.

But when the team added a ninth planet with properties exactly matching those predicted by the Caltech scientists in 2016, the orbit of 2015 BP519 suddenly made sense. "The second you put Planet Nine in the simulations, not only can you form objects like this object, but you absolutely do," Juliette Becker, a Michigan graduate student and lead author of the study told Quanta.

Some researchers, however, caution that Planet Nine may not be the only explanation for 2015 BP519's strange orbit. Michele Bannister, a planetary astronomer from Queen's University Belfast, in Ireland, who was not involved in the study, told Newsweek that while the latest findings were "a great discovery," other scenarios could account for its tilt. "This object is unusual because it's on a high inclination," she said. "This can be used to maybe tell us some things about its formation process. There are a number of models that suggest you can probably put objects like this into the shape of orbit and the tilt of orbit that we see today."

Also at Quanta Magazine.

Discovery and Dynamical Analysis of an Extreme Trans-Neptunian Object with a High Orbital Inclination (arXiv:1805.05355)

Related: Medieval Records Could Point the Way to Planet Nine

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  • (Score: 2) by takyon on Thursday May 17 2018, @04:33PM

    by takyon (881) <takyonNO@SPAMsoylentnews.org> on Thursday May 17 2018, @04:33PM (#680765) Journal

    According to the Wikipedia article, it would be about the size of Uranus or Neptune, and WISE "may have" the capabilities to detect it. Obviously not very definitive.

    WISE has already looked for it and come up with nothing so far: [findplanetnine.com]

    WISE search for Planet X:

    Two years ago, using data from the WISE survey (a thermal infrared wide field all sky survey in space) Kevin Luhman showed that there were no Jupiter or Saturn mass Planet Xs out to a vast distance. Sadly, the survey is not very sensitive to ~Neptune sized objects, which could barely be seen to Planet Nine's ~200 AU closest approach. Luhman has redone the survey using the more sensitive bands of the WISE data (but which covers a very limited part of the sky), and reports that there is still nothing there. He is still trying to understand what the limits are for a ~10 earth mass object, but we have hope that WISE would have seen Planet Nine in the section near Planet Nine's perihelion where it crosses the Milky Way. Stay tuned.

    Keep in mind that if Planet Nine is currently closer to the 1,200 AU aphelion than the 200 AU perihelion (these are estimates), then it becomes much harder to detect.

    Also, it is expected to be smaller than Neptune. Although the estimates for Planet Nine say ≥10 Earth masses and 2-4 Earth radii, it's probably not as large as Neptune, which is 3.883 Earth radii and 17.147 Earth masses.

    See also:

    http://2.bp.blogspot.com/-_LyEwG4UkPQ/Vp_6haMekPI/AAAAAAAANpw/6ocvJi6yqi8/s1600/Capture.PNG [blogspot.com]

    Putting it all together, we have a crude picture that looks like this of where we can rule out Planet Nine (sorry for the ugliness; today got busy...):

    The Catalina, PanSTARRS transient & moving object surveys do a great job of ruling out much of the sky. They generally miss the galactic plane, but that is mostly filled in by WISE, at least at closest approach. Though we can't be 100% sure yet.

    The biggest unexplored territory is where, statistically, it is most likely to be: near aphelion. Sadly, aphelion is also very close to the Milky Way galaxy. Ugh.

    So where is it? Probably distant. 500 AU+. Probably fainter than 22nd magnitude. Very possibly in the middle of the Milky Way galaxy.

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