Asteroid-Bashing Spacecraft ‘Phenomenally Successful,’ Studies Find

NASA’s DART spacecraft slammed into the asteroid Dimorphos at a spot between two boulders during last September’s first test of a planetary defense system, sending debris hurtling into space and changing the rocky, oblong-shaped object’s path a bit more than previously calculated.

Those were among the findings released by scientists on Wednesday in the most detailed account of the U.S. space agency’s proof-of-principle mission on using a spacecraft to change a celestial object’s trajectory — employing sheer kinetic force to nudge it off course just enough to keep Earth safe.

“The DART test was phenomenally successful. We now know that we have a viable technique for potentially preventing an asteroid impact if one day we had the need to,” said planetary scientist Terik Daly of the Johns Hopkins University Applied Physics Laboratory in Maryland, lead author of one of the DART studies published in the journal Nature.

The Double Asteroid Redirection Test (DART) spacecraft collided on September 26, 2022, at 22,530 kilometers per hour with Dimorphos, an asteroid about 150 meters in diameter, roughly 11 million kilometers from Earth. Dimorphos is a moonlet of Didymos, which is defined as a near-Earth asteroid and has a shape like a top spinning in space with a diameter of about 780 meters. Neither object imperils Earth.

“We were trying to change the amount of time that it took for Dimorphos to orbit around Didymos by colliding head-on with Dimorphos,” said Northern Arizona University planetary scientist Cristina Thomas, lead author of another of the studies published in Nature.

“The momentum of the collision and the momentum of the ejected material both acted to decrease the amount of time it takes Dimorphos to orbit by 33 minutes. This also results in the object orbiting a little bit closer to Didymos,” Thomas said.

Before the impact, the orbital period was 11 hours, 55 minutes. It now is 11 hours, 22 minutes. NASA’s previous estimate, announced in October, was an orbital change of 32 minutes. The benchmark for success had been set as a change of at least 1 minute, 13 seconds.

The scientists gave a blow-by-blow account of how the collision unfolded.

“First, one of the spacecraft’s solar panels directly hit a large boulder near the impact site. Next, the second solar panel grazed another large boulder. Finally, the spacecraft bus — the box between the solar panels — hit between these two boulders,” Daly said.

“We suspect that these two boulders were destroyed. After impact, ejecta [debris blasted into space] was launched from the surface for a period of time,” Daly added, saying satellite and telescope images showed a large amount of such material.

The research also clarified details such as the precise location of the impact and the angle of impact.

“People may think of the DART mission as a fairly straightforward experiment that is similar to playing billiards in space — one solid spacecraft impacts into one solid asteroid,” Thomas said. “However, asteroids are far more complex than just a solid rock. In fact, most asteroids are what we think of as rubble piles.”

The $330 million DART mission was seven years in development.

“We don’t know of any asteroids at this time that pose a threat to Earth, but we want to be ready for such a scenario,” Daly said. “It’s analogous to testing a car’s airbags. You make sure they work during a crash test instead of waiting to get in a real car accident to find out if they work.”

Source: Voice of America