Skip to main content

Mars 2020 spacecraft survives 8 days in a freezing cold vacuum chamber

Engineers prepare the Mars 2020 spacecraft for a thermal vacuum (TVAC) test in the Space Simulator Facility at NASA’s Jet Propulsion Laboratory in Pasadena, California.The image was taken on May 9, 2019. NASA/JPL-Caltech

The spacecraft which will carry Curiosity’s little brother, the Mars 2020 rover, has been put through its paces in a further round of testing this week. The NASA Mars 2020 craft underwent acoustic and thermal vacuum (TVAC) tests which simulate the conditions of launch and of space to check it can withstand the extreme environments.

“First we blast it with sound to make sure nothing vibrates loose,” David Gruel, the Mars 2020 assembly, test, and launch operations manager at NASA’s Jet Propulsion Laboratory (JPL) explained in a statement. “Then, after a thorough examination, we ‘put it in space’ by placing the spacecraft in this huge vacuum chamber we have here at JPL. We pump out the atmosphere, then chill parts of it and cook others while testing the performance of the entire spacecraft.”

Tests were performed in a 25-foot-wide, 85-foot-tall chamber called the Space Simulator Facility. The near-vacuum environment created within the chamber requires a door that weighs 16 tons to withstand the pressure, and the chamber is chilled to -200 degrees Fahrenheit (-129 degrees Celsius) using liquid nitrogen. In addition, powerful xenon lamps shine on the craft inside the chamber to simulate the Sun’s rays.

The craft survived a grueling eight days of bombardment in the chamber and passed all the tests with no issues. “This is the most comprehensive stress test you can put a spacecraft through here on Earth,” Gruel said. “We flew in our simulated space environment for a week and a day, checking and rechecking the performance of every onboard system and subsystem. And everything looked great — which is a good thing, because next time this spacecraft stack hits a vacuum, it will be on its way to Mars for real.”

And when it comes time for the rover to find a location on Mars on which to land, it will have some help. A tool called the Lander Vision System (LVS) will descend to the surface and collect data about the terrain of the Jezero Crater, where the landing is planned. This week the LVS went through tests of its own, successfully gathering data and images from a test site in Death Valley, California.

Georgina Torbet
Georgina is the Digital Trends space writer, covering human space exploration, planetary science, and cosmology. She…
NASA to announce Mars 2020 rover name, here’s how to watch
Mars 2020 rover

We’ve been calling the Mars 2020 rover “the Mars 2020 rover” because up until now “the Mars 2020 rover” is all we’ve had to go with.

But on Thursday, March 5, NASA will finally give the vehicle a name when it reveals the winner in a contest that saw entries from 28,000 students across the U.S.

Read more
Mars 2020 rover leaves home on 2,300-mile journey to Florida for launch
A rendering of Mars 2020 rover, to be launched on its journey to Mars next year.

NASA's Mars 2020 rover has completed its fabrication and assembly stages and is almost ready for its launch to Mars in a few months.

Before final launch preparations can take place, the rover needed to be transported from its home at NASA's Jet Propulsion Laboratory (JPL) in Pasadena, California, to the Kennedy Space Center in Florida from where it will launch. For the rover's 2,300-mile trip, it was carried aboard an Air Force C-17 Globemaster cargo plane that landed in Florida earlier this week.

Read more
Why the Mars 2020 rover is armed with a high-powered laser
Mars 2020's mast, or "head," includes a laser instrument called SuperCam that can vaporize rock material and study the resulting plasma.

When it departs for its journey to Mars later this year, NASA's Mars 2020 rover won't only be armed with an array of scientific instruments -- it will also be toting a high-powered laser.

The laser is part of the rover's SuperCam instrument for analyzing rocks and minerals found on the Martian surface. The laser beam sends out pulses from the end of the mast, which you could think of as the rover's "head," vaporizing rocks from up to 20 feet away. Once a rock is vaporized, the instrument can analyze the material to search for particular elements or chemical compounds.

Read more