New Paper Reveals Everything We Learned About Pluto Thanks To New Horizons

Pluto in all its glory. NASA/JHUAPL/SWIR

NASA’s New Horizons has literally revolutionized our understanding of Pluto and its moons and has cast a light on the potential variety of objects that we might discover at the edge of the Solar System.

It has been two years since the flyby of Pluto and the next target is still 15 months away, so this seems like an ideal time to assess the impact of the mission on planetary science. In a Nature Astronomy review, Dr Catherine Olkin and colleagues cover what we know about Pluto, its moon Charon and the many mysteries that still surround the system.

"It’s a good time for a review article as it was less than a year ago that we got all the data down from the spacecraft and there have been so many interesting questions that came up from New Horizons that take time to dig in and really understand," Dr Olkin, of the Southwest Research Institute, told IFLScience.

The paper explains just how ignorant we were of the former planet before July 2015. Scientists knew that Pluto was redder than Charon and about twice as big, but there were huge uncertainties on either's actual size and the composition of their surfaces. Some of the best pictures were collected by Hubble in 1994, and while they produced interesting data, weren’t as eye-catching as New Horizons' turn out to be. Hubble is also responsible for the discovery of its four smaller satellites, Nix and Hydra in 2005, Kerberos in 2011, and Styx in 2012.

Months before New Horizons actually arrived at its primary target, it began seeing a more complex surface than had been predicted or expected, and as the months turned into days, scientists saw that both Pluto and Charon were quite complex. The flyby then showed that Pluto was not just complex but active.

The most intriguing feature of Pluto both in the public imagination and for the planetary scientists working on it is its heart, officially named Tombaugh Regio, and especially its western lobe known as the Sputnik Planitia. The region is suspected to have formed in an ancient impact basin and the interaction with Charon (the heart is on the side that never faces the moon) could help keep it active. Some astronomers have suggested that an ocean might even lay beneath the ice.

"One of the highlights of the mission is discovering a large basin on Pluto, filled with exotic ices. And to see the cellular pattern across the ices in Sputnik planitia and understanding that they are consistent with convection cells. There are active processes in a world so far away from the sun," Dr Olkin added.
The cells in Sputnik Planitia. NASA/JHUAPL/SWIR
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