NASA picks Astrobotic to land ice-hunting VIPER rover at the moon’s south pole
A Pennsylvania-based space company called Astrobotic has taken on a dramatic new task for NASA: deliver a VIPER to the moon.
Not a snake, of course. Astrobotic’s payload will be a large rover designed to sniff out water ice buried below the lunar surface, dubbed the Volatiles Investigating Polar Exploration Rover, or VIPER. The launch, which is currently scheduled for late 2023, is a keystone piece of NASA’s Artemis program to land humans at the moon’s south pole in late 2024.
“The VIPER mission will search for ice and map resources to bring us a significant step closer to NASA’s ultimate goal of a sustainable long-term presence on the moon,” Thomas Zurbuchen, NASA’s associate administrator for science, said during a news conference held Wednesday (June 11). “This will help make it possible for humans to eventually explore Mars and beyond.”
NASA has picked Astrobotic’s Griffin lander to deliver the VIPER ice-hunting rover to the moon’s south pole in 2023. This illustration shows the lander on the moon deploying a ramp for the rover. (Image credit: Astrobotic)
NASA’s VIPER moon rover departs it Astrobotic Griffin lander after landing near the lunar south pole. (Image credit: Astrobotic)
VIPER explores the moon’s south pole after leaving its Astrobotic Griffin lander in this illustration. (Image credit: Astrobotic)
This Astrobotic image shows how the VIPER moon rover will be stowed on Griffin during the trip to the moon. (Image credit: Astrobotic)
Another view of NASA’s VIPER moon rover atop its Astrobotic Griffin lander in space. (Image credit: Astrobotic)
The delivery contract comes as part of NASA’s Commercial Lunar Payload Services program, under which the agency hires private companies to fly NASA instruments and experiments to the lunar surface, rather than delivering them on agency machinery.
“Today marks another exciting milestone for a new era of science, exploration and commerce on the moon,” John Thorton, Astrobotic’s CEO, said during the news conference. “The rover will no doubt be a historic mission.”
The new landing contract is worth $199.5 million as a fixed-cost fee for every aspect of the launch and landing, according to a NASA statement. Astrobotic will independently hire a rocket launch company, yet to be determined, to execute that phase of the mission.
Astrobotic also holds one of the first two missions under the Commercial Lunar Payload Services program, to deliver a lander carrying small science and technology payloads on the moon next year. That preliminary Astrobotic mission will launch on a small lander called Peregrine. VIPER will require a much larger vehicle, since it clocks in at 1,000 lbs. (450 kilograms). The Astrobotic lander for the larger payloads is called Griffin.
An artist’s depiction of NASA’s VIPER moon rover. (Image credit: NASA Ames/Daniel Rutter)
VIPER’s primary role will be to help scientists better understand orbital data that hints to where ice reserves may be lurking under the moon’s surface. Much of that data comes from NASA’s Lunar Reconnaissance Orbiter, which has been at work since 2009. But although its decade of observations have built up a valuable trove of lunar measurements, scientists need to get closer to the surface to truly understand them.
Hence VIPER. NASA’s theory is that the rover can study ice in a small region of the moon’s south pole up close. Such work will include measuring its abundance, understanding what form it takes, and measuring how clean it is, among other tasks. Then scientists can compare those observations with orbital data. That comparison should sharpen their understanding of ice around the moon, far beyond VIPER’s immediate reach.
To do so, the rover will carry four instruments, including a drill capable of reaching about 3 feet (1 meter) below the moon’s surface. Copies of three of the four instruments, Zurbuchen said today, will be flown on earlier missions as a way to test their performance before the rover launches.
“VIPER will be the first robot to actually touch this water ice that we’ve detected from many different previous missions,” Daniel Andrews, the project manager of the VIPER mission and director of engineering at NASA’s Ames Research Center in California, said during the news conference. “Certainly I think VIPER is a gamechanger here.”
VIPER is heavily based on a previous NASA project, Resource Prospector, which was cancelled in 2009. The new mission folds that legacy into NASA’s new goal of landing humans on the moon by 2024, a deadline that most consider ambitious.
An artist’s depiction of a NASA lunar rover called VIPER, which is designed to map where ice lurks under the moon’s surface. (Image credit: NASA Ames/Daniel Rutter)
Unlike any lunar rover to date, VIPER will be designed not just to withstand the frigid, two-week-long lunar nights, but also to continue gathering data during that time. Most surface projects that have survived lunar sundown have worked during the day and powered down at night to reduce risk.
When the rover was first announced, NASA was aiming for it to land on the moon in late 2022. By the beginning of this year, that date had slipped to 2023. That delay was to allow the team time to build in that long-term lifespan and ability to survive the lunar night, Zurbuchen said.
NASA briefly considered launching early that year, but that window would have sent the rover to the north pole, Zurbuchen said during the news conference. The agency decided to wait until later in the year, when a launch will send VIPER to the south pole, where humans are bound for the Artemis landing.
The launch delay will not impact NASA’s ability to gain the insights from VIPER that it wants to apply to the human landing, Zurbuchen said. However, because of the decision to emphasize long-term observations, NASA cannot yet provide an official mission cost estimate.