Inside Science reporter Tom Metcalfe writes that MIT researchers have developed a new method for taking the Earth’s temperature by examining basaltic rocks, and used the method to create a model of the Earth's oceanic ridges. "We are constantly stressing how [plate] tectonics operated in the past," says postdoc Stephanie Brown Krein. "And so I think it's really important for us to be able to understand how tectonics are working in the present day.”
Michael Hecht of MIT’s Haystack Observatory speaks with Eric Niiler of Wired about how the Mars MOXIE experiment is successfully extracting oxygen from the Martian atmosphere. "It’s stunning how much the results look identical to what we had run in the laboratory two years earlier,” says Hecht, who leads the MOXIE team. “How many things can you put away for two years and turn on and even expect to work again? I mean, try that with your bicycle.”
Michael Hecht of MIT’s Haystack Observatory speaks with GBH’s Edgar Herwick about how the MIT-designed MOXIE instrument has successfully extracted oxygen out of Martian air. “I've been using the expression ‘a small breath for man, a giant leap for humankind,'” says Hecht, who served as the PI for MOXIE.
Boston Globe reporter Charlie McKenna spotlights how MOXIE, an MIT-designed instrument onboard NASA’s Perseverance rover, has successfully produced oxygen on Mars. “What’s amazing to me is that this instrument has been through two years of kind of brutal treatment, right? And it’s behaving as if nothing happened, as if we just turned it off and turned it on again right away,” says Michael Hecht of MIT’s Haystack Observatory.
Prof. Sara Seager speaks with Washington Post reporter Timothy Bella about the search for exoplanets and the James Webb Telescope. “I just remember seeing the stars and being overwhelmed by the beauty and the vastness and the mysteriousness of it,” recalled Seager, of a camping trip with her father that helped inspire her interest in space. “There’s something almost terrifying about it at the same time as it being so beautiful, because yeah, it’s so unknown, and it seems like it goes on forever.”
Al Chen '00, SM '02, a NASA systems engineer, speaks with NBC Boston about the hidden surprises that NASA engineers hid on the Perseverance rover for NASA fans and science enthusiasts to uncover. “I was at MIT for six years, we loved coding things, Mystery Hunt is a big deal,” says Chen. “I think it's a little bit of a chance to bring the art and the engineering together.”
"We are looking for remnants of past life," says Prof. Tanja Bosak in a discussion broadcast on GBH's Boston Public Radio of the NASA Perseverance rover’s mission on Mars. "There won't be anything that's a complex organism, so everything we have to look for is microscopic. All these rocks tell a story. Depending on their chemical properties and the way they look, we can tell a history and then decide which may have been good to preserve life."
Michael Hecht, associate director of MIT’s Haystack Observatory, speaks with Joe Shortsleeve of Bloomberg Radio about the MOXIE experiment onboard the NASA Perseverance rover.
USA Today reporter Elinor Aspegren highlights alumna Dr. Swati Mohan, who led guidance, navigation and controls operations for the NASA Perseverance landing on Mars.
WHDH reporter Aisha Mbowe spotlights how the MIT-designed Mars Oxygen In-Situ Resource Utilization Experiment (MOXIE) is onboard NASA’s Perseverance rover.
Profs. Tonja Bosak and Jeffrey Hoffman speak with CBS Boston about the successful landing of the NASA Perseverance rover on Mars. Hoffman says of the MIT-designed Mars MOXIE experiment: “we are going to demonstrate how to make oxygen on the surface of Mars…we want to learn how to produce that on the surface of Mars and that’s what Moxie is going to demonstrate for the first time.”
Michael Hecht, associate director of MIT’s Haystack Observatory, speaks with Charlie McKenna of The Boston Globe about the MIT-designed Mars Oxygen In-Situ Resource Utilization Experiment (MOXIE). “If we could plant a tree on Mars, it would do what MOXIE is doing. But we can’t, so we build a machine to do it,” he said. “If we’re serious about having a presence on Mars and having a research base, we need a way to make oxygen.”
Two high school students and their mentor, MIT postdoc Tansu Daylan, have discovered four new exoplanets located about 200 light years from Earth, reports Nora McGreevy for Smithsonian. The students were participating in the Student Research Mentoring Program, which pairs young astronomers with scientists at MIT and Harvard. “[The students] are so good at finding things that may skip your eyes, basically. It’s fun. And I really like the exchange of ideas,” Daylan adds.
Mashable spotlights how two high school students, who were part of Student Research Mentoring Program (SRMP) at the Harvard-Smithsonian Center for Astrophysics (CfA) and MIT, have discovered four new exoplanets. “Both the students took guidance from mentor Tansu Daylan, a postdoc at the MIT Kavli Institute for Astrophysics and Space Research, and helped the students study and analyze data from the Transiting Exoplanet Survey Satellite (TESS).”
Research scientist Clara Sousa-Silva speaks with Wired reporter Abigail Beall about phosphine, a molecule that she has spent the past decade investigating. “Phosphine is a horrific molecule, it’s foul in every way,” she says. “It’s almost immoral, if a molecule can be.”