Caltech/R. Hurt (IPAC)

This artist's conception shows the view from (hypothetical) Planet Nine back towards the Sun.

A century after observatory founder Percival Lowell speculated that a ‘Planet X’ lurks at the fringes of the Solar System, astronomers say that they have the best evidence yet for such a world. They call it Planet Nine.

Astronomers spy most distant Solar System object ever

Orbital calculations suggest that Planet Nine, if it exists, is about ten times the mass of Earth and swings an elliptical path around the Sun once every 10,000–20,000 years. It would never get closer than about 200 times the Earth–Sun distance, or 200 astronomical units (au). That range would put it far beyond Pluto, in the realm of icy bodies known as the Kuiper belt.

No one has seen Planet Nine, but researchers have inferred its existence from the way several other Kuiper belt objects (KBOs) move. And given the history of speculation about distant planets (see ‘Solving for X’), Planet Nine may end up in the dustbin of good ideas gone wrong.

Solving for X

Astronomers have long speculated about the existence of additional large planets in the outer Solar System, but none has yet been confirmed.

1846 Johann Gottfried Galle discovers Neptune, guided by predictions from perturbations of Uranus’s orbit.

Everett Collection Historical/Alamy

1905 Percival Lowell (pictured) starts hunting for a ‘Planet X’, which he predicted would lie beyond Neptune, just as Neptune lies beyond Uranus. His calculations led astronomers at Lowell’s namesake observatory to find Pluto in 1930, but the object is not massive enough to be Planet X.

1984 On the basis of periodic extinctions in the fossil record, scientists propose that a dwarf star, later named Nemesis, passes through the Solar System every 26 million years, flinging comets on a path to impact Earth.

1999 Perturbations in comet orbits lead astronomers to propose that a brown dwarf (bigger than a planet but smaller than a star) exists in the outer Solar System. It is named Tyche, the good sister of Nemesis.

2014 A search with the Wide-Field Infrared Survey Explorer satellite rules out the existence of both Nemesis and Tyche. But the discovery of an object in the distant Kuiper belt prompts Chadwick Trujillo and Scott Sheppard to propose a large planet in the Kuiper belt.

2016 Orbital calculations by Konstantin Batygin and Mike Brown strengthen the concept of this unseen planet, which they name ‘Planet Nine’.

“If I read this paper out of the blue, my first reaction would be that it was crazy,” says Mike Brown, an astronomer at the California Institute of Technology in Pasadena who was part of the research team. “But if you look at the evidence and statistics, it’s very hard to come away with any other conclusion.”

Brown and his colleague Konstantin Batygin propose Planet Nine in a paper published on 20 January in the Astronomical Journal (K. Batygin and M. E. Brown Astronom. J. 151, 22; 2016).

Alessandro Morbidelli, an orbital-dynamics specialist at the University of the Côte d’Azur in Nice, France, who has reviewed the paper in detail, says he is “quite convinced” that the planet exists. Others are not so sure.

Dwarf planet stretches Solar System's edge

“I have seen many, many such claims in my career,” says Hal Levison, a planetary scientist at the Southwest Research Institute in Boulder, Colorado. “And all of them have been wrong.”

Claims of Planet Nine’s existence recall a period in the nineteenth century when astronomers predicted and then discovered Neptune by studying tiny perturbations in the orbit of Uranus. The gravity of some unseen body must be tugging on Uranus, they said — and they were right. “In some sense we’re hoping to relive history a little bit,” says Batygin.

The story of Planet Nine began in 2014, when a pair of astronomers reported finding a KBO called 2012 VP₁₁₃. Its stretched-out orbit never came closer than 80 au to the Sun (C. A. Trujillo and S. S. Sheppard Nature 507, 471–474; 2014). (Pluto, at its most distant, is 48 au from the Sun.) VP₁₁₃ joined the dwarf planet Sedna as only the second known object with a very distant orbit. In their report, Chadwick Trujillo at the Gemini Observatory in Hilo, Hawaii, and Scott Sheppard of the Carnegie Institution for Science in Washington DC said that the orbits of these objects suggested that yet another object, a planet bigger than Earth, could exist at around 250 au (see ‘Far afield’).

K. Batygin and M. E. Brown Astronom. J. 151, 22 (2016)

Batygin and Brown picked up the challenge. “Our main goal at that point was to show that this idea is crazy,” says Brown.

But Trujillo and Sheppard had noted that Sedna, VP₁₁₃, and several other KBOs all shared a peculiar property: their closest approach to the Sun lay in the plane of the Solar System, and they all moved from south to north when crossing that plane.

Batygin and Brown analysed the orbits further and discovered that their long axes were physically aligned, too, as if something had nudged them to occupy the same region of space around the Sun. The team concluded that a massive object must be shepherding the objects. “We have a gravitational signature of a giant planet in the outer Solar System,” Batygin says.

Planet Nine — informally known as Phattie — is probably smaller than Neptune and icy with a gassy outer layer. The gravitational effect of Uranus and Neptune would have flung it outward in the first 3 million years of the Solar System’s existence, Batygin says.

The exoplanet files
What we know about alien worlds — and what’s coming next

Actually spotting Planet Nine through a telescope could be difficult because it would spend most of its time very far from the Sun, making it faint and hard to see, notes Meg Schwamb, an astronomer at the Academia Sinica in Taipei. Brown and Batygin have been looking for it using the Subaru telescope in Hawaii, so far without success. The Large Synoptic Survey Telescope in Chile will have a good chance of catching it when it starts operating early next decade, Brown says.

But he and Batygin say that there are other ways to test the existence of Planet Nine. Its gravitational influence would also produce a population of KBOs with orbits at steeply inclined angles. A few of these have already been spotted, but discovering more would strengthen the statistics of the discovery and help to clarify whether Planet Nine really exists or not, says David Nesvorny, a planetary scientist at the Southwest Research Institute. So it’s back to the telescopes. “It really points to the fact that more extreme KBOs need to be found,” says Trujillo. “The location is not known well enough to just point a telescope at it and say, ‘there it is’.”

Journal name:

Nature

Volume:

529,

Pages:

266–267

Date published:

(21 January 2016)

DOI:

doi:10.1038/529266a

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10 comments Subscribe to comments

1. 
   Rodney Bartlett • 2016-02-09 05:45 AM

   Suppose astronomers oneday find Phattie (that name sounds like it belongs to an overweight planet with issues about its acid-base balance). Why not rename it neoPluto or exoNeptune? Regarding suggestion #1 - Pluto was supposed to be the ninth planet, and neoPluto really would be Planet 9. Regarding suggestion #2 - First, it's comparable to Neptune in size and is being discovered in the same way (calculations define the orbit, then observations search every part of that orbit until the planet is found). Second, Planet 9 is quite isolated from the relatively compact grouping of the known planets. It might be almost regarded as an extrasolar or exoplanet for that reason.

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2. 
   jay wall • 2016-01-28 09:45 AM

   dont overthink this ! i ll just come out and say what the rest of you are afraid to....planet x is a super powerful space station... if you guys dont lose this denial of the obvious, and turn over the stolen plans, earth will go the way of alderan...the dark side may be powerful, but if we make this a race thing, well only embarrass ourselves. and humankind will be the laughing stock of the entire rebellion, not to mention the united federation of planets, i gotta go now...got reunited with my estranged father recently, and he offered me this killer job working for him, ruling the galaxy by his side...Vader and Son... has a nice ring to it...a nice dark ring! ( insert sinister music, and maniacal laugh here...) call me when planet xxx is coming this way....then well talk black holes !

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3. 
   Alastair B. McDonald • 2016-01-26 11:04 AM

   Although we can't see it perhaps we could not see it. In other words would it be possible to detect it when it eclipses a star/stars. Can anyone do the mathematics to calculate how long such an eclipse would last.

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4. 
   renato renato • 2016-01-23 12:21 AM

   Correct orbit: 13332 years. And let's start counting the population of Earth crows...

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5. 
   Helmut Hauschild • 2016-01-21 06:52 PM

   Do we need to reconsider the claim, that Voyager 1 has left the solar system?

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6. 
   Shannon Fitzgerald • 2016-01-21 12:36 AM

   I nominate Jotun for the name! after the ice giants of Norse mythology =D or Jotunheimr after the home realm of the ice giants!

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7. 
   Louis Oldershaw • 2016-01-20 10:57 PM

   Planet Nine could be a captured "rogue" planetary-mass object. I certainly agree that migration occurs in exoplanet systems. Astrophysicists have recently discovered that the positions of several major planets in the Solar System have undergone major positional changes. However, it may be that the first event in the formation of an exoplanet system is not an ab initio cloud collapse event, but rather a dissipative capture event that would produce a considerable envelope of gas/dust and eventually produce a disk-like internal structure. The capture model for exoplanet formation is quite natural and it would readily explain the following without invoking smoke and mirrors: 1. Wide binary systems, 2. Hot Jupiter exoplanet systems, 3. Exoplanet systems with retrograde planets, 4. Exoplanet systems with high eccentricity planets, 5. "wobbly" precessing exoplanets, 6. Circumbinary planetary systems, etc., in a simple, and less ad hoc, and less credibility-straining manner. --- Sumi et al (Nature, 19 May 2011) published solid evidence for trillions of unbound planetary-mass "rogue" objects roaming throughout our Galaxy. --- Helmut A. Abt, a highly respected astrophysicist and former editor of the Astrophysical Journal, presented a paper at the most recent AAAS meeting in Alaska that concluded that many exoplanet and multi-star systems MUST be the result of capture processes. It is virtually inevitable mathematically. Capture/ejection is how atomic systems are known to form/ionize, and Discrete Scale Relativity unequivocally states that the morphology and dynamics of atoms and molecules in highly excited states are exactly self-similar to exoplanet systems and wide binaries, respectively. The capture model is poised for a major comeback in astrophysics, and this enhances evidence for self-similarity between atomic and stellar systems. We don't need to tack ever more epicycles onto the old paradigms of theoretical physics. What we need is a new unified paradigm based on nonlinear dynamical systems and fractal self-similarity. Discrete Scale Relativity/Fractal Cosmology

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8. 
   A. Aiya-Oba • 2016-01-20 06:58 PM

   This is great! What is more remarkable about the finding, is that it also explains the source and construct, of the long-sought hidden (Dark) matter in the Universe. -Aiya-Oba (Natural philosopher)

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9. 
   Rainald Koch • 2016-01-20 10:00 PM

   Well, no. That object would add some 20 ppm to the mass of the solar system while the necessary mass of the Dark Matter is several times the mass of known matter.

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10. 
    A. Aiya-Oba • 2016-01-22 10:29 PM

    Spacetime is simultaneously absolute and relative, as eternal oneness of pairness. Besides Space relativity pattern, there is hidden (Dark) absolute pattern of complementarity of everything, which explains why Dwarf (dense) planets entangle with Giant non-dense) planets, as oneness of pairness; equator (entanglement ) of self-contradiction, the immanent self-creating unity of All in all (Cosmos). Hence the numerical relations: AZ = 1 = 1.234567890x10^9 x 8.100000074x10^-10 = 1 as, (123 + 321)/444 = 1 and, (0123456789 +9876543210)/9999999999. = 1 -Aiya-Oba (Philosopher and discoverer of Nature's absolute logic and state)

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