Spending your New Year’s Eve at work doesn’t sound like much fun, I guess. Unless it involves the farthest exploration of worlds in history, a midnight countdown led by Queen rock star Brian May, more than 1,000 friends and colleagues along for the ride, and getting your party on the cover of The New York Times, above the fold! That’s how I spent my New Year’s Eve — as the New Horizons spacecraft conducted the first-ever flyby of a small, primordial Kuiper Belt object a billion miles beyond Pluto.

New Horizons is NASA’s first mission to explore the Pluto system and the ancient Kuiper Belt beyond. After being designed, built, and tested by a partnership between the Johns Hopkins University Applied Physics Laboratory and the Southwest Research Institute, where I work, New Horizons was launched January 9, 2006. After a 9.5-year journey at a speed of almost one million miles per day, New Horizons successfully explored the Pluto system in the summer of 2015, approaching the planet to within a distance of about 8,000 miles.

Then, after an additional journey of a billion miles and almost 3.5 years, the New Horizons probe flew past the Kuiper Belt object (KBO) 2014 MU 69 , nicknamed Ultima Thule, on New Year’s Day. That flyby, which took New Horizons more than three times closer to Ultima Thule than it flew past Pluto, was also fully successful, taking the first detailed images of any KBO.

New Horizons scientists created this video of Ultima Thule using 14 images captured by New Horizons' Long Range Reconnaissance Imager (LORRI), taken just minutes before the spacecraft flew by the Kuiper Belt object at over 32,000 miles (51,500 km) per hour.



NASA/JHAPL/SwRI

The kind of orbit that Ultima Thule is in indicates it belongs to a unique population of KBOs, called cold classical KBOs, that have been undisturbed from their present positions since the formation of the solar system.

The main objectives for our first KBO flyby were to map the object’s shape, geology, color units, and surface composition, and to search for satellites and rings. Secondary objectives included searching for a gas or dust atmosphere around it, searching for its interaction with the solar wind, making stereoscopic maps of the surface to discover its topography, and taking the temperature of Ultima Thule’s day and night sides. All of these objectives were met, and over the past month, the spacecraft has begun to return data from the flyby to Earth.

Although it could take 20 months, through August or September of 2020, for all of the flyby data to be sent back, key results have already been obtained from the first few data sets. As the mission’s principal investigator, I want to share those early results with you.

Perhaps most exciting is that New Horizons found Ultima Thule to be a primordial contact binary — something never before seen up close by a spacecraft. That binary is almost certainly a relic planetesimal that can provide valuable insights into how KBOs, comets, and dwarf planets formed in the Kuiper Belt.

As far as things that might surround the binary, no evidence for any gas, moons, dust, or rings has been detected in the New Horizons data sent to Earth so far. The absence of an atmosphere is not surprising because any surface volatiles (substances that vaporize at relatively low temperatures) should have escaped long ago. But many small KBOs have satellites and some KBOs even have rings, so in that regard, Ultima Thule may be unusual. Better ring and satellite search data are still on the spacecraft, however, so we will keep looking as these data come to Earth. The final verdict isn’t in yet!

Surprisingly to many of us, the two lobes of Ultima Thule (which we have dubbed “Ultima” and “Thule,” with Ultima being the larger lobe) initially appeared to have roughly similar shapes. Ultima and Thule have diameters of about 12.1 and 8.8 miles, respectively. From approach imagery, we have measured Ultima Thule’s rotation period at 15.9 ± 0.1 hours. Early color images show that Ultima Thule is red overall, with little color variation from place to place seen in the images sent back as of this writing in early February. Moreover, Ultima Thule’s overall color is similar to other KBOs in the cold classical group to which Ultima Thule belongs.