- NASA’s New Horizons probe successfully flew past a space rock called Ultima Thule, also known as 2014 MU69, on New Year’s Day.
- Ultima Thule, which is 4 billion miles from Earth (and 1 billion miles beyond Pluto), is now the most distant object humanity has ever visited.
- The nuclear-powered spacecraft recorded hundreds photos of Ultima Thule, and it will beam that data home over ther next two years.
- The flyby may reveal secrets of how planets in our solar system formed some 4.5 billion years ago.
Scientists just flew NASA’s nuclear-powered New Horizons probe past a mysterious, mountain-size rock beyond the orbit of Pluto.
The spacecraft phoned home at 10:39 a.m. EST, confirming it wasn’t destroyed by the manoeuvre. This makes Ultima Thule the most distant object that humanity has ever visited.
New Horizons pulled off the manoeuvre on New Year’s Day, taking hundreds of photos in a highly choreographed, pre-programmed sequence. The space probe reached its closest point to the space rock – about 2,200 miles – at 12:33 a.m. EST. New Horizons then turned around to photograph its exit at a speed of about 32,000 mph.
“We’re here to tell you that last night, overnight, the United States spacecraft New Horizons conducted the farthest exploration in the history of humankind, and did so spectacularly,” Alan Stern, who leads the New Horizons mission, said during a press conference after the flyby. “Thousands of operations onboard the spacecraft had to work correctly in order for us to be able to tell you this, and now we know that it all did.”
The mission was as surprising as it was ambitious: When NASA launched New Horizons toward Pluto in 2006, nobody knew Ultima Thule existed. There wasn’t even a reliable way to detect the object (formally known as 2014 MU69) until astronauts plugged an upgraded camera into the Hubble Space Telescope in 2009.
But a signal acquired by NASA and Johns Hopkins University’s Applied Physics Laboratory (JHUAPL) confirmed the spacecraft survived.
The scientists shared the first blurry image from the flyby during the press conference on Tuesday:
Stern said it tells them Ultima Thule is about 35 km by 15 km, and its irregular shape could either be because it’s “bilobate” with two different sized ends, or it’s actually two objects orbiting each other at close range.
“If we knew what to expect, we wouldn’t be going to Ultima Thule,” Stern previously told Business Insider. “This is what what exploration is about.”
Better images should come through in the coming days, with the highest resolution colour ones expected in February. Stern said the team would start writing its first scientific paper on the data next week.
“What is striking home with me is that we can build a spacecraft on Earth, and we send it out billions of miles away from Earth, and it sends us back all this wonderful data that we get to look at and learn more about our world, our solar system,” she said during the press conference after the successful flyby.
What Ultima Thule is and where it’s located
New Horizons coasted through a zone called the Kuiper Belt, a region where sunlight is about as weak as the light from a full moon on Earth. That far away, frozen leftovers of the solar system’s formation called Kuiper Belt Objects, or KBOs, lurk in vast numbers. (Pluto is one of them.)
Ultima Thule is one of these pristine remnants. It has presumably remained in its distant and icy orbit for billions of years. Stern said the object’s name comes from a Norse phrase that means “beyond the farthest frontiers.”
The unprecedented data acquired by New Horizons might therefore reveal new clues about how the solar system evolved to form planets like Earth, Stern said.
“Ultima is the first thing we’ve been to that is not big enough to have a geological engine like a planet, and also something that’s never been warmed greatly by the sun,” he said. “It’s like a time capsule from 4.5 billion years ago. That’s what makes it so special.”
Stern compared the flyby to an archaeological dig in Egypt.
“It’s like the first time someone opened up the pharaoh’s tomb and went inside, and you see what the culture was like 1,000 years ago,” he said. “Except this is exploring the dawn of the solar system.”
Another analogy: Stern said he thinks of Ultima Thule as a “planetary embryo,” since it’s a building block of larger planets that never became one.
“In that sense, it’s like a paleontologist finding the fossilized embryo of a dinosaur,” Stern said. “It has a very special value.”
Journey into the unknown
Following New Horizons’ historic visit to Pluto in 2015, NASA added the bonus mission to Ultima Thule.
During a press briefing on Monday, NASA revealed New Horizons’ first image showing Ultima Thule’s shape.
“It’s a blob only a couple of pixels cross, but you can see just from that blob that it’s an elongated blob – it’s not round,” John Spencer, a New Horizons project scientist, said during the briefing before the flyby. “This is just the first glimpse of what’s going to get rapidly better from here.”
Stern said the first images that New Horizons captures during the flyby will each take two hours to transmit. Then each bit of data, moving at the speed of light as radio waves, will take about six hours to reach antennas on Earth. Those early photos will be released to the public on Wednesday.
However, it will take months to receive the most detailed, full-resolution images due to limitations of the New Horizons spacecraft.
It could take up to 20 months for the researchers to get all of the flyby data, Helene Winters, the project manager of New Horizons, said during the press briefing before the flyby.
Stern shied away from making predictions about what images might show, citing how shocking the first close-up pictures of Pluto were.
“If it’s anything as surprising as Pluto, though, it will be wonderful,” he said.
‘10,000 times harder than reaching Pluto’
This flyby was dramatically more difficult than New Horizons’ Pluto visit, Stern said.
“Rendezvousing with something the size of a large, filthy mountain covered in dirt, a billion miles away from Pluto, and honing in on it is about 10,000 times harder than reaching Pluto,” Stern said. “That’s because it’s about 10,000 times smaller. The achievement of getting to it is unbelievable.”
Pinpointing exactly where Ultima Thule would be in space when New Horizons could fly near it required a “two and a half week odyssey” of telescope observations around the world, mission scientist Simon Porter said on Twitter.
To see Ultima Thule block the light of a distant star – a way to confirm the space rock’s precise orbit – the researchers had to fly an aeroplane-based telescope called SOFIA and deploy dozens of telescopes in Argentina.
In a New York Times op-ed published on New Year’s Eve, Stern described the encounter as “mind-boggling.”
“As you celebrate New Year’s Day, cast an eye upward and think for a moment about the amazing things our country and our species can do when we set our minds to it,” Stern wrote.
Watch live coverage of New Horizons’ flyby of Ultima Thule
Anyone interested in watching Ultima Thule flyby events can tune into live video broadcasts being hosted over the next several days. Segments that feature the first images and science results will occur on Wednesday and Thursday.
JHUAPL, which manages the New Horizons mission, is hosting a suite of broadcasts through the lab’s YouTube channel. Additionally,NASA TV and NASA Live is mirroring some of the New Horizons coverage, even though the government shutdown has sent many NASA workers home.
You can watch the main New Horizons events via the NASA Live video player below.