It Might Not be Planet 9 Causing Disruptions in the Kuiper Belt, Just the Collective Gravity of Everything Out There

Planet-9-art.jpg

In

January of 2016

, astronomers Mike Brown and Konstantin Batygin published the first evidence that there might be another planet in our Solar System. Known as "

Planet 9

" (or "Planet X", to those who contest the controversial

2006 Resolution by the IAU

), this hypothetical body was believed to orbit at an extreme distance from our Sun, as evidenced by the fact that certain Trans-Neptunian Objects (TNOs) all seem to be pointing in the same direction.

Since that time, other lines of evidence have emerged that have bolstered the existence of Planet 9/Planet X. However, a team of researchers from CU Boulder recently proposed an alternative explanation. According to

their research

, it could be interactions between Kuiper Belt Objects (KBOs) themselves that might explain the strange dynamics of "detached objects" at the edge of the Solar System.

The researchers presented their findings at the

232nd meeting of the American Astronomical Society

, which ran from June 3-7 in Denver, Colorado. The presentation took place on June 4th during a press conference titled "Minor Planets, Dwarf Planets & Exoplanets". The research was led Jacob Fleisig, an undergraduate studying astrophysics at CU Boulder, and included Ann-Marie Madigan and Alexander Zderic - an assistant professor and a graduate student at CU Boulder, respectively.

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Artist's conception of Sedna, a dwarf planet in the Solar System that only gets within 76 astronomical units (AUs) of our Sun. Credit: NASA/JPL-Caltech

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For the sake of their study, the team focused on icy bodies like Sedna, a minor planet that orbits the Sun at a distance ranging from 76 AU at perihelion to 936 AU at aphelion. Along with a handful of other objects at this distance, such as Eris, Sedna appears to be separated from the rest of the Solar System - something which astronomers have struggled to explain ever since it was discovered.

Sedna was also discovered by Michael Brown who, along with Chad Trujillo of the Gemini Observatory and David Rabinowitz of Yale University, spotted it on November 14th, 2003, while conducting a survey of the Kuiper Belt. In addition to orbiting our Sun with a period of over 11,000 years, this minor planet and other detached objects has a huge, elliptical orbit.

What's more, this orbit does not take them Sedna or these other objects anywhere near to Neptune or any other gas giant. Unlike Pluto and other Trans-Neptunian Objects (TNOs), it is therefore a mystery how they achieved their current orbits. The possible existence of a as-yet-undiscovered planet (Planet 9/Planet X), which would be about 10 times the size of Earth, is one hypothetical explanation.

After years of searching for this planet and attempting to determine where its orbit would take it, astronomers have yet to find Planet 9/Planet X. However, as Prof. Madigan explained in a recent CU Boulder

press release

, there is another possible explanation for the gravitational weirdness going on out there:

While Madigan and her team did not originally set out to find another explanation for the orbits of "detached objects", they ended up pursuing the possibility thanks to Jacob Fleisig's computer modelling. While developing simulations to explore the dynamics of the detached objects, he noticed something very interesting about the region of space they occupy.

Having calculated the orbits of icy objects beyond Neptune, Fleisig and the rest of the team noticed that different objects behave much like the different hands on a clock. Whereas asteroids move like the minute hand (relatively fast and in tandem), larger objects like Sedna move more slowly like the hour hand. Eventually, the hands intersect. As Fleisig explained:

What Fleisig's computer model showed was that Sedna's orbit goes from normal to detached as a result of those small-scale interactions. It also showed that the larger the detached object, the farther it gets away from the Sun - something which agrees with previous research and observations. In addition to explaining why Sedna and similar bodies behave the way they do, these findings may provide clues to another major event in Earth's history.

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Artistic rendition of the Chicxulub impactor striking ancient Earth, which is believed to have caused theCretaceous–Paleogene extinction event. Credit: NASA

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This would be what caused the extinction of the dinosaurs. Astronomers have understood for a long time that the dynamics of the outer Solar System often end up sending comets towards the inner Solar System on a predictable timescale. This is the result of icy objects interacting with each other, which causes their orbits to tighten and widen in a repeating cycle.

And while the team is not able to say that this pattern was responsible for the impact that caused the Cretaceous–Paleogene extinction event (which resulted in the extinction of the dinosaurs 66 million years ago), it is a fascinating possibility. In the meantime, the research has shown just how fascinating the outer Solar System is, and how much remains to be learned about it.

"The picture we draw of the outer solar system in textbooks may have to change," said Madigan. "There's a lot more stuff out there than we once thought, which is really cool."

The research was made possible thanks to the support of the NASA Solar System Workings and the Rocky Mountain Advanced Computing Consortium Summit Supercomputer.

Further Reading: University of Colorado Boulder

Matthew Williams

Matthew Williams

Matt Williams is a space journalist, science communicator, and author with several published titles and studies. His work is featured in The Ross 248 Project and Interstellar Travel edited by NASA alumni Les Johnson and Ken Roy. He also hosts the podcast series Stories from Space at ITSP Magazine. He lives in beautiful British Columbia with his wife and family. For more information, check out his website.