The nerdiest New Year’s party in the solar system is happening 4 billion miles from Earth, where a lone, intrepid spacecraft is en route to the furthest object humans have ever explored.
There is no champagne in this dim and distant region, where a halo of icy worlds called the Kuiper Belt circles the outermost edge of the solar system. There will be no renditions of “Auld Lang Syne” (in space, no one can hear you sing).
But there is a mini van-sized spacecraft called New Horizons. And there is a puny, primitive rock called Ultima Thule, a rocky relic of the solar system’s origins, whose name means “beyond the borders of the known world.”
At New Horizon’s birthplace, the Johns Hopkins University Applied Physics Laboratory in Laurel, Maryland, scores of space scientists gathered to study – and celebrate – the occasion. While their fellow Earthlings counted down to midnight, they were ticking off time until 12:33 a.m., when the spacecraft would make its closest approach to its target.
In images taken Sunday night, Ultima Thule appeared as little more than an elongated white smear against the darkness of space.
But an amazed “oooh” rippled through the APL auditorium when deputy project scientist John Spencer projected the blurred image on a screen. Until then, no one had ever seen a Kuiper Belt object as anything more than a single pixel of light.
“This is just a first glimpse of what is rapidly going to get better from here on out,” Spencer said. “We’re going to learn more very soon and we just can’t wait.”
This is the biggest and busiest moment for the New Horizons team since its spacecraft soared past Pluto three years ago, capturing detailed close-up photos of the distant dwarf planet.
Helene Winters, the missions project manager, said spacecraft operators have been subsisting on chocolate and sleeping on air mattresses at APL so they can make the most of every minute until New Horizons reaches its target. Navigators have kept a watchful eye out for potential hazards, which can be hard to spot in this dim and distant corner of the solar system.
But because it takes more than six hours for light signals to traverse the vast distance between the Kuiper Belt and Earth, it is already too late to change the spacecraft’s course.
That same light time delay means scientists won’t know until Tuesday morning whether the flyby worked.
Winters laughed when asked whether she thinks she will be able to sleep Monday night. “Ask me again tomorrow.”
As midnight approached, the gathering at APL took on a festival atmosphere. Scientists and their guests munched on crudites in a room lit with sparkling blue lights. Small children up long past their bedtimes scurried between chairs and sneaked cookies from the buffet.
“This is like a dream come true,” said Chuck Fields, a podcast producer from Indianapolis who drove nine hours to attend Monday’s event. He was dressed in a blindingly bright blazer and tie bearing images of planets, galaxies and the sun. His wife, Dawn, wore matching pants.
“You can find anything on Amazon,” Dawn laughed. “Alan (Stern) said this was going to be a celebration,” Chuck added. “So it was like, OK, let’s celebrate!”
The spacecraft, which launched in 2006, is the first NASA mission designed specifically to explore the outer solar system — a region that project scientist Alan Stern calls “a scientific wonderland.” Out in the Kuiper Belt, sunlight is 0.05 percent as strong as it is on Earth and temperatures hover close to absolute zero.
“This is history making what we’re doing, in more ways than one,” Stern said. Not only is Ultima Thule the most distant planetary object ever explored, it is also likely the most primitive. Unlike planets, which are transformed by geologic forces in their interiors, and asteroids, which are heated by the sun, Ultima Thule is thought to have existed in a “deep freeze” since it formed.
“It is probably the best time capsule we’ve ever had for understanding the birth of our solar system and the planets in it,” Stern said.
The encounter with Ultima is among the more difficult feats NASA has attempted. The great distances from Earth and the sun mean scientists must put up with a long communications lag and instruments must operate with very little light. Ultima Thule was only discovered four years ago, and its orbit and surroundings still aren’t well known. And New Horizons is a 13-year-old spacecraft; its power generator produces just a quarter as much wattage as a light bulb, which means operators must carefully prioritize their use of remaining fuel.
The sheer speeds and distances involved boggle the mind. Ultima Thule is one percent the size of Pluto, and New Horizons must get four times closer to image it. At the moment of closest approach, the spacecraft will be moving at a breathtaking 32,000 miles per hour. Its cameras must swivel to track Ultima Thule as it passes by; otherwise, all it will see is a blur amid the black.
“It’s risky,” NASA’s associate administrator for science, Thomas Zurbuchen, said Monday evening. “There’s a nonzero chance it’s not going to work.” But if it does, he added, scientists will have seen something entirely new. “And every time we do that . . . the solar system turns out to be more wonderful in some ways than we expected.”
The New Horizons team has several experiments planned for the brief encounter. Particle and dust detectors will probe the environment around Ultima. The spacecraft’s three cameras will take images in color and black and white in an effort to map the tiny world and determine its composition.
Spencer said Monday he is especially interested in those detailed color photos, which could illuminate a “particular mystery” about “cold classical” Kuiper Belt objects like Ultima Thule, which never underwent dramatic geologic change. Although these rocks should be primarily made of ice, they all appear reddish when viewed through the Hubble Space Telescope. It may be that the ices contain impurities that change color when struck by cosmic rays, Spencer said — a possibility he hopes to pin down by looking into craters of more recently exposed material.
“Who knows?” he said. “Anything is possible when you’re exploring a new class of world you’ve never seen before.”
The New Horizons team will also use this moment to attempt an unprecedented radio science experiment. Six hours before the moment of closest approach, the dishes of the Deep Space Network – which NASA uses to communicate with far-flung spacecraft – blasted a powerful radio signal in Ultima Thule’s direction. The signal was timed to arrive at the rock at the same time New Horizons does on Tuesday, allowing the spacecraft to study how those radio waves get reflected off its surface. As APL staffers began to set out plastic cups for sparkling wine Monday night, those signals were racing toward their rendezvous with New Horizons and Ultima Thule – a message from an old year on this world, to the next year on a new one.
(c) 2019, The Washington Post · Sarah Kaplan