Bloomberg News reporter Martine Paris writes that the MIT MOXIE experiment has been converting carbon dioxide from the Martian environment into oxygen since the Perseverance rover landed on Mars. “Seven times last year, throughout the Martian seasons, Moxie was able to produce about six grams (0.2 ounces) of oxygen per hour,” writes Paris.
During day and night, in the wake of a dust storm and in extreme temperatures, the MIT-led Mars Oxygen In-Situ Resource Utilization Experiment (MOXIE) was able to generate about 100 minutes of breathable oxygen in 2021 on Mars, reports Jacklin Kawn for New Scientist. “At the highest level, this is just a brilliant success,” said Michael Hecht, principal investigator of the MOXIE mission at MIT’s Haystack Observatory.
Astronomers and researchers from MIT and 80 other institutions have captured the first image of a supermassive black hole at the center of our galaxy reports Joel Achenbach for The Washington Post. “The pandemic slowed us down but it couldn’t stop us,” said research scientist Vincent Fish of the pandemic’s impact on the Event Horizon Telescope team’s work.
Researchers from MIT and 80 other institutions have captured the first image of the Milky Way’s supermassive black hole, reports Denise Chow for NBC News. The image provides “the first direct visual evidence of ‘the gentle giant’ that lies at the center of our galaxy,” writes Chow.
Researchers from MIT contributed to the first image of a supermassive black hole at the center of our galaxy, reports CBS Boston. “Black holes don’t emit light, but the image shows the shadow of the black hole surrounded by a bright ring of light, which is bent by the gravity of the black hole,” reports CBS.
An international team of scientists, including MIT researchers, unveiled the first picture of the supermassive black hole at the heart of the Milky Way, reports Martin Finucane for The Boston Globe. “Our collaboration’s remarkable images of Sgr A* and our scientific conclusions were a combined effort that involved not just the handful of us on stages around the world today, but more than 300 people all working together united by our fascination with black holes,” explains research scientist Vincent Fish.
Associated Press reporter Seth Borenstein writes that the international consortium behind the Event Horizon Telescope has imaged the supermassive black hole at the center of the Milky Way. To get the picture, eight synchronized radio telescopes around the world had to coordinate so closely “in a process similar to everyone shaking hands with everyone else in the room,” explained research scientist Vincent Fish.
Researchers from the Event Horizon Telescope team, including MIT scientists, have captured the first image of the black hole at the center of the Milky Way, reports Bill Chappell for NPR. “More than 300 researchers collaborated on the effort to capture the image, compiling information from radio observatories around the world,” reports Chappell. “To obtain the image, scientists used observations from April 2017, when all eight observatories were pointed at the black hole.”
The Haystack Observatory will be hosting a virtual climate change forum on Jan. 27, featuring Haystack’s director Colin Lonsdale and research scientist Pedro Elosegui, reports John Laidler for The Boston Globe. “Lonsdale will provide general information about the work of Haystack and climate science,” writes Laidler. “Elosegui will discuss Haystack’s polar research, which includes studies of global climate and sea-level change.”
The MIT Haystack Observatory honored the work of Herbert Weiss, a trailblazing engineer and former researcher at MIT Lincoln Lab who helped establish Haystack, which operates a radio telescope whose work “is the stuff of scientific legend,” writes Thomas Farragher for The Boston Globe. “This place wouldn’t exist if he had not had the leadership and the vision and the drive to make it happen,” says Colin J. Lonsdale, director of Haystack.
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.
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.
Speaking with Charlie McKenna of The Boston Globe, Michael Hecht, associate director of MIT’s Haystack Observatory, describes the elation he felt when the NASA Perseverance rover landed on Mars. “I would have expected … just a huge sigh of relief, but no, this was like somebody just scored the winning touchdown on a Hail Mary pass in the Super Bowl,” says Hecht. “It just was time to whoop and holler. It was extraordinary and every part of this was extraordinary.”