CBS Boston spotlights how Prof. Taylor Perron has been honored with a 2021 MacArthur Fellowship for his work “unraveling the mechanisms that create landscapes on Earth and other planets.” CBS Boston notes that Perron is “currently studying river networks on Mars and one of Saturn’s moons for clues about the climate history of each celestial body.”
Prof. Taylor Perron has been named a recipient of the 2021 MacArthur Fellowship for his work investigating the processes that create a planet’s landforms, reports Ellen McCarthy for The Washington Post.
Prof. Mark Bear speaks with NPR’s Jon Hamilton about how injecting tetrodotoxin, a paralyzing nerve toxin found in puffer fish, could allow the brain to rewire in a way that restores vision and help adults with amblyopia or "lazy eye." Bear explains that: “Unexpectedly, in many cases vision recovered in the amblyopic eye, showing that that plasticity could be restored even in the adult.”
Motherboard reporter Matthew Gault spotlights how scientists from MIT and Commonwealth Fusion Systems developed a large high-temperature superconducting magnet that can create a magnetic field of 20 tesla, “a breakthrough that paves the way for carbon-free power.”
WBUR’s Bruce Gellerman explores how researchers from MIT and Commonwealth Fusion Systems successfully demonstrated “the world's strongest high-temperature superconducting magnet, putting them a step closer towards a workable fusion reactor.” The advance “provides reason for hope that in the not-too-distant future, we could have an entirely new technology to deploy in the race to transform the global energy system and slow climate change,” says Maria Zuber, MIT’s vice president for research.
Scientists from MIT and Commonwealth Fusion Systems have performed a successful test of the world’s strongest high temperature superconducting magnet, a crucial step in creating net positive energy from a fusion device, reports the Associated Press.
Scientists at MIT and Commonwealth Fusion Systems have cleared a major hurdle in their efforts to achieve net energy from fusion, successfully creating a 20 tesla magnetic field using the high-temperature superconducting magnet they developed, reports Hiawatha Bray for The Boston Globe. “This test provides reason for hope that in the not too distant future we could have an entirely new technology to deploy in the race to transform the global energy system and slow climate change,” says Maria Zuber, MIT’s vice president for research.
CNBC reporter Catherine Clifford writes that researchers from MIT and Commonwealth Fusion Systems have successfully demonstrated the high-temperature superconducting electromagnet they developed, creating a 20 tesla magnetic field. “This magnet will change the trajectory of both fusion science and energy, and we think eventually the world’s energy landscape,” says Dennis Whyte, director of MIT’s Plasma Science and Fusion Center.
MIT and Commonwealth Fusion Systems scientists have created a 20 tesla magnetic field using a large, high temperature superconducting fusion magnet, a step towards creating a fusion power plant, reports Stephen Jewkes for Reuters. The researchers aim “to use the technology to build a commercially viable fusion power plant to generate zero-emission electricity.”
Prof. Kerry Emanuel discusses how climate change impacts the rapid intensification of storms like Hurricane Ida with Washington Post reporter Sarah Kaplan. “This is exactly the kind of thing we’re going to have to get used to as the planet warms," says Emanuel.
Vice reporter Becky Ferreira writes that a study by MIT scientists examining extreme climate events in the Earth’s history finds that as the planet warms we could be more susceptible to volatile climate extremes. “I think these results emphasize that Earth's long-term evolution is governed by complex, potentially amplifying mechanisms that we do not yet fully understand,” explains graduate student Constantin Arnscheidt.
NPR’s Jon Hamilton spotlights Prof. Li-Huei Tsai’s work developing a noninvasive technique that uses lights and sounds aimed at boosting gamma waves and potentially slowing progression of Alzheimer’s disease. "This is completely noninvasive and could really change the way Alzheimer's disease is treated," Tsai says.
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.”
Writing for Scientific American, Pamela Feliciano spotlights how a study by Prof. Pawan Sinha examined the predictive responses of people with autism. Sinha found that people with ASD had very different responses to a highly regular sequence of tones played on a metronome than those without ASD. While people without ASD ‘habituate’ to the sequence of regular tones; people with ASD do not acclimate to the sounds over time.”
Boston Herald reporter Rick Sobey writes that a new drug combination has shown potential in treating pancreatic cancer. “The trio drug combination is a CD40 agonist antibody, a PD-1 inhibitor and a TIGIT inhibitor. The researchers found that this combination led to pancreatic tumors shrinking in about 50% of the animals that were given this treatment,” writes Sobey.