Posted on: February 15, 2022; Updated on: February 15, 2022By Bryan Gentry, brgentry@sc.edu<\/a> <\/p>\n If humans ever move to Mars, several University of South Carolina alumni will be among those who helped make the journey possible. <\/p>\n South Carolina graduate students have played instrumental roles in developing the technology to scour the Red Planets surface for signs of ancient life and then getting that technology safely there. Whether in research labs on campus or in NASA offices, theyve made their mark on our neighbor in the solar system. <\/p>\n You might say the record for the longest field goal in Gamecock history belongs to Yang Cheng, a 1993 geography Ph.D. graduate. <\/p>\n This diagram shows how Perseverance landed on Mars using Cheng's landing vision system. (Photo courtesy of NASA) <\/p>\n The distance: 300 million miles. The football: a one-ton, $2 billion scientific instrument.<\/p>\n Cheng was a key designer of the landing vision system for NASAs Perseverance rover, which launched in 2020 and reached Mars in February 2021. When winds over the Red Planet tried to sweep the lander off course, the landers cameras detected the change. Rocket boosters fired to steer the lander toward a safe landing zone. Back on earth, Cheng held his breath. <\/p>\n He watched the livestream from his home office, his eyes fixed to his computer screen while an announcers voice shared the landers speed and elevation every few seconds. When the rover touched down safely within five meters of the target location less than the distance between the field goal uprights Cheng slapped his desk, jumped in his seat and celebrated like hed just scored the game-winning point. <\/p>\n That made everyone very happy, he says, recalling the victorious moment. It was exciting and a great relief. I was very nervous, but I have confidence in the system. <\/p>\n Cheng studied mapmaking in China before coming to the university to study geographic information systems. His dissertation focused on using supercomputers to improve satellite images, making them more useful for creating maps. <\/p>\n Since that time, theres been a revolution in the field, resulting in sharp satellite images and easily obtained GPS data. <\/p>\n But Mars hasnt seen the same resolution revolution. The only high-resolution images of Mars dont have the coverage necessary for making a map. The larger images are low-resolution and suffer from problems like jitter from the satellites vibration. Since theres no GPS network and no map of Mars made on the ground, theres no way to verify a satellite map, either. <\/p>\n I liked seeing a connection between what I did as a nerdy scientist potentially impacting people I cared about. <\/p>\n Alicia Strange-Fessler, chemistry and biochemistry, Ph.D. graduate<\/p>\n That wasnt a problem with previous rovers Cheng helped NASA land on Mars rovers that aimed for vast flatlands with few obstacles. But Perseverance needed to land in Jezero Crater, a former lake where scientists hope to find ancient signs of life. Landing in a dried-up lake is no simple task. <\/p>\n This areas pretty dangerous, Cheng says. There are a lot of landing hazards, like craters, quicksand, boulders and steep landscapes. <\/p>\n Because of Chengs background in cartography and geography, he got the task of mapping Mars. He developed ways to remove jitter and other errors from the Martian images to create a map NASA could trust to help steer the lander to the surface. <\/p>\n I was excited that I had the opportunity to make the first navigation map for the safe landing of a spacecraft in human history, he says. But I was nervous because this is the first time in history. <\/p>\n Now that the rover is roaming Jezero Crater and collecting samples, Cheng is gratified to know that he helped it get there. <\/p>\n Ive always been interested in space and interested in doing something that has not been done before, Cheng says. Thats my motivation, the passion that drives me forward. <\/p>\n Meanwhile, the Perseverance rover is studying rocks and soils on Mars with the help of technology developed by South Carolina chemists. The rovers SuperCam includes a spectrometer device that uses a laser to analyze the components of objects several meters away. <\/p>\n Perseverance took this selfie over a rock nicknamed Rochette, on the 198th Martian day of the mission. (Photo courtesy of NASA) <\/p>\n Thirty years ago, Raman spectrometry required up close and personal contact between the spectrometer and the object being studied. But just before Mike Angel became a chemistry professor at South Carolina, he pioneered a method for collecting the data at a distance. <\/p>\n At the time, Angel was trying to analyze volcanic plumes and radioactive waste tanks that people couldnt get close to. Mars wasnt even on the map. <\/p>\n When I wrote that paper in 1992, I never would have imagined [the technology] would end up on Mars. Not in a million years,\" Angel says. I was interested in planetary exploration, but [the spectrometer] was too crude and too big. It needed a lot of engineering. <\/p>\n Angel, who recently retired as a Carolina Trustee Professor in the Department of Chemistry and Biochemistry, improved on the technology with numerous graduate students in Columbia. One of the first was Chance Carter, who then made standoff spectrometry a pivotal part of his research career. <\/p>\n What could be more fun than shooting laser beams to do standoff detection? Carter says, recalling a lot of fun tests in the lab. Its just exciting, fun work. Its captivating. It was exciting because it was something that only we were doing. <\/p>\n Carter calls Angel visionary for leading graduate students to new breakthroughs with spectrometry. Angel always had this knack for being able to think about whats the next important thing to do, he says. <\/p>\n Ive always been interested in space and interested in doing something that has not been done before. Thats my motivation, the passion that drives me forward. <\/p>\n Yang Cheng, a 1993 geography Ph.D. graduate<\/p>\n Most of the Raman spectrometry applications Angel studied were related to defense uses, such as detecting bombs by examining electromagnetic wavelengths. That attracted Alicia Strange-Fessler, whose husband was in the military at the time, to join the lab as a doctoral student. <\/p>\n I liked seeing a connection between what I did as a nerdy scientist potentially impacting people I cared about, she says. <\/p>\n Strange-Fessler's research focused on extending the range and accuracy of remote spectrometers in defense applications. But Angel and others were already exploring how the spectrometers could go to space. <\/p>\n Although the specific technology Strange-Fessler worked on was not developed enough to include on Perseverance, the rover does rely on techniques refined by Angels students over the years. Strange-Fesslers work may be carried by the next Mars mission, or it might be sent to the moons of Jupiter and Saturn, Angel says. <\/p>\n That prospect is humbling, breathtaking and inspiring, Strange-Fessler says. Its exciting to know that something youve worked toward could help make discoveries in other worlds and increase our understanding of the solar system and larger space beyond that.\" <\/p>\n Angel, who helped analyze data sent back by Perseverance, is excited by the rovers progress. It already has packaged several rock samples to be returned to earth by a future Mars mission, and the data is promising. <\/p>\n \"We are finding the kind of layered rocks that we expect to see at the bottom of a lake the kind of rocks that we think might preserve evidence of life from billions of years ago, he says. <\/p>\n Banner image: An artist's concept image depicts the rover analyzing rocks on Mars.<\/p>\n Share this Story! Let friends in your social network know what you are reading about<\/p>\n Topics: Alumni, Academics, Research, Graduate Studies, College of Arts and Sciences<\/p>\n <\/p>\n See the original post here:<\/p>\n Alumni make their mark on Mars exploration - UofSC News & Events - @UofSC<\/a><\/p>\n","protected":false},"excerpt":{"rendered":" Posted on: February 15, 2022; Updated on: February 15, 2022By Bryan Gentry, brgentry@sc.edu<\/a> If humans ever move to Mars, several University of South Carolina alumni will be among those who helped make the journey possible. Continue reading