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Newly Discovered Object in Space May Signal the Presence of Two Distant Worlds

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Discovery images of 2012 VP113. (Cerro Tololo Inter-American Observatory)

Discovery images of 2012 VP113-red, green and blue show its position at times two hours apart. (Cerro Tololo Inter-American Observatory)

Some of us come from the generation who were taught that there were nine planets. Today, every eight-year-old can tell you there are only eight (as there have been their entire lives, ever since Pluto was conscripted into the troop of dwarf planets). But will the generation that is coming into the world today know more than eight, more than nine, solar planets? Some recent observations make this prospect sound like a strong possibility.

In March, the discovery of an object called 2012 VP113, which may eventually fall under the classification of dwarf planet, was announced and joined a small group of other distant rocky bodies that have unusually aligned orbital paths. These objects are too small to have come to this alignment through mutual gravitational attraction, suggesting that a stronger gravitational source is orchestrating their motions.

More recently, a research team in Spain has reexamined the orbital characteristics of this fleet and dug up more unusual patterns of behavior that suggests not one, but two distant massive solar planets may be at play. Not only did the researchers confirm the strangely aligned orbits of the small rocky objects, they found that some of them travel in very similar and greatly elongated paths — suggesting a pattern of orbital “resonance” with the unseen planets. An example of orbital resonance can be seen in a relationship between Neptune and Pluto, where Pluto has been tugged into a cadence of two orbits for every three of Neptune’s.

The two planetary players in this vast game of night tennis would circle the sun at around 200 and 250 astronomical units (AU, where 1 AU equals 93 million miles, the sun-Earth distance) in nearly circular orbits, and each be considerably more massive than the Earth.

A solar system-sized game of night tennis?

We have not seen these planets directly; we have only inferred their existence and properties through observations of the smaller objects they influence, and only when those objects were close enough to Earth to be themselves detected. (Imagine watching that game of night tennis with the court lights turned off and with a glow-in-the-dark tennis ball. It’s something like that, maybe…). Though the players are indicated to be sizeable planets, they are over six times farther from us than Neptune and beyond the sight of today’s telescopes.

Phantom planets in our solar system have haunted us for years, and while some are truly ghosts of fiction or myth, such as the Earth-destroyer Nibiru, others have been unseen specters of science: Percival Lowell’s “Planet X” and the alleged comet-deflecting rabble rouser dubbed “Nemesis.”

Earlier this year, NASA’s Wide-Field Infrared Explorer (WISE) mission swept the entire sky with its infrared-sensitive gaze, looking for any large solar system objects orbiting in the distant reaches beyond Neptune. After WISE’s intensive search for heat sources, it was concluded that there should be no planets the size of Saturn within 10,000 astronomical units and no Jupiter-sized worlds within 26,000 AU of our sun.

But that doesn’t rule out smaller planets within that range, which is what the analysis by the team in Spain has placed back on the table.

Like travelers from distant and uncharted continents, the small and eccentric objects we observe as they pass by our shores bring us news of these previously unknown but imagined worlds. What’ll it be, nine planets, ten planets, more? I don’t know, but I’m thinking we might start just accepting that the number of planets in our solar system may be “X”.

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Category: Astronomy

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About the Author ()

Benjamin Burress has been a staff astronomer at Chabot Space & Science Center since July 1999. He graduated from Sonoma State University in 1985 with a bachelor’s degree in physics (and minor in astronomy), after which he signed on for a two-year stint in the Peace Corps, where he taught physics and mathematics in the African nation of Cameroon. From 1989-96 he served on the crew of NASA’s Kuiper Airborne Observatory at Ames Research Center in Mountain View, CA. From 1996-99, he was Head Observer at the Naval Prototype Optical Interferometer program at Lowell Observatory in Flagstaff, AZ. Read his previous contributions to QUEST, a project dedicated to exploring the Science of Sustainability.