NASA MarCo CubeSats communicate with Earth, sends image of Mars

November 29, 2018 |

NASA Jet Propulsion Laboratory

Pasadena, CA –  NASA’s MarCO mission was built to see whether two experimental, briefcase-sized spacecraft could survive the trip to deep space, and the two CubeSats proved more than able. After cruising along behind NASA’s InSight for seven months, they successfully relayed data back down to Earth from the lander during its descent to the Martian surface on Monday, November 26th, 2018.

Nicknamed “EVE” and “WALL-E” after the stars of the 2008 Pixar film, MarCO-A and MarCO-B used experimental radios and antennas, providing an alternate way for engineers to monitor the landing.

MarCO-B, one of the experimental Mars Cube One (MarCO) CubeSats, took this image of Mars from about 4,700 miles (7,600 kilometers) away during its flyby of the Red Planet on Nov. 26, 2018. MarCO-B was flying by Mars with its twin, MarCO-A, to attempt to serve as communications relays for NASA’s InSight spacecraft as it landed on Mars. (NASA/JPL-Caltech)

The CubeSats provided information to InSight’s landing team in just 8 minutes – the time it took for radio signals to travel from Mars to Earth.

That was much faster than waiting on NASA’s Mars orbiters, which weren’t positioned to be able to observe the entire event and send data back to Earth immediately.

“WALL-E and EVE performed just as we expected them to,” said MarCO chief engineer Andy Klesh of NASA’s Jet Propulsion Laboratory in Pasadena, California, which built the CubeSats. “They were an excellent test of how CubeSats can serve as ‘tag-alongs’ on future missions, giving engineers up-to-the-minute feedback during a landing.”

Landing on Mars is exceptionally difficult: Before InSight, only about 40 percent of all attempts by various nations had succeeded. Even if a spacecraft doesn’t survive landing, having a “black box” – or a pair of them, as with MarCO – to record the event can help engineers design better landing technology.

Neither of the MarCO CubeSats carry science instruments, but that didn’t stop the team from testing whether future CubeSats could perform useful science at Mars. As MarCO-A flew by, it conducted some impromptu radio science, transmitting signals through the edge of Mars’ atmosphere.

Interference from the Martian atmosphere changes the signal when received on Earth, allowing scientists to determine how much atmosphere is present and, to some degree, what it’s made of.

“CubeSats have incredible potential to carry cameras and science instruments out to deep space,” said John Baker, JPL’s program manager for small spacecraft. “They’ll never replace the more capable spacecraft NASA is best known for developing. But they’re low-cost ride-alongs that can allow us to explore in new ways.”

As a bonus, some consumer-grade cameras aboard MarCO provided “drive-by” images as the CubeSats sailed past Mars. MarCO-B was programmed to turn so that it could image the planet in a sequence of shots as it approached Mars (before launch, MarCO-A’s cameras were found to be either non-functioning or too blurry to use).

After the landing, MarCO-B turned backward to take a farewell shot of the Red Planet. It also attempted to snap some photos of Mars’ moons, Phobos and Deimos.

With the mission’s objectives reached, the MarCO team will spend the next couple of weeks collecting additional data on each CubeSat. Of interest will be how much fuel is left in each CubeSat and detailed analyses of how their relay capability performed.

There’s also sure to be more celebrating among the team.

“MarCO is mostly made up of early-career engineers and, for many, MarCO is their first experience out of college on a NASA mission,” said Joel Krajewski of JPL, MarCO’s project manager. “We are proud of their accomplishment. It’s given them valuable experience on every facet of building, testing and operating a spacecraft in deep space.”

For more about MarCO, visit this link.

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