Studies have shown that pollution, whether from factories or traffic-snarled roads, disproportionately affects communities where economicall...
Saturday, February 8, 2020
All about the laser (and microphone) atop Mars 2020, NASA's next rover
NASA is sending a new laser-toting robot to Mars. But unlike the lasers of science fiction, this one is used for studying mineralogy and chemistry from up to about 20 feet (7 meters) away. It might help scientists find signs of fossilized microbial life on the Red Planet, too.
One of seven instruments aboard the Mars 2020 rover that launches this summer, SuperCam was built by a team of hundreds and packs what would typically require several sizable pieces of equipment into something no bigger than a cereal box. It fires a pulsed laser beam out of the rover's mast, or "head," to vaporize small portions of rock from a distance, providing information that will be essential to the mission's success.
Here's a closer look at what makes the instrument so special:
A Far Reach
Using a laser beam will help researchers identify minerals that are beyond the reach of the rover's robotic arm or in areas too steep for the rover to go. It will also enable them to analyze a target before deciding whether to guide the rover there for further analysis. Of particular interest: minerals that formed in the presence of liquid water, like clays, carbonates and sulfates. Liquid water is essential to the existence of life as we know it, including microbes, which could have survived on Mars billions of years ago.
Scientists can also use the information from SuperCam to help decide whether to capture rock cores for the rover's sample caching system. Mars 2020 will collect these core samples in metal tubes, eventually depositing them at a predetermined location for a future mission to retrieve and bring back to Earth.
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