Forbes
MIT researchers are leading three missions over the next decade to characterize Venus’ atmosphere for habitability, reports Bruce Dorminey for Forbes. “Understanding Venus is key to understanding exo-earths,” writes Dorminey.
MIT researchers are leading three missions over the next decade to characterize Venus’ atmosphere for habitability, reports Bruce Dorminey for Forbes. “Understanding Venus is key to understanding exo-earths,” writes Dorminey.
The Center for UltraCold Atoms, located at MIT, is one of four university physics programs that will share $76 million in funding from the National Science Foundation as part of the organization’s Physics Frontiers Centers program, which aims to “foster major breakthroughs at the intellectual frontiers of physics,” writes Michael T. Nietzel for Forbes. “[T]he Center for UltraCold Atoms is a joint effort with Harvard University that will explore how to achieve greater control and programmability of complex quantum systems,” he explains.
Prof. Max Tegmark has been named to TIME’s list of the 100 most influential people in AI. “Our best course of action is to follow biotech’s example, and ensure that potentially dangerous products need to be approved by AI-experts at an AI [version of the] FDA before they can be launched,” says Tegmark of how government should regulate the development of AI. “More than 60% of Americans support such an approach.”
Boston Globe reporter Hiawatha Bray spotlights WiTricity, an MIT spinoff that designs wireless charging systems. “WiTricity uses magnetic fields rather than cables to give batteries a boost,” explains Bray.
Prof. Mark Tegmark speaks with The Wall Street Journal reporter Emily Bobrow about the importance of companies and governments working together to mitigate the risks of new AI technologies. Tegmark “recommends the creation of something like a Food and Drug Administration for AI, which would force companies to prove their products are safe before releasing them to the public,” writes Bobrow.
Popular Science reporter Jon Kelvey writes that astronomers from MIT and elsewhere recently captured views of a galaxy cluster as it existed when it was 5 billion years old, and found it is one of the few relaxed galaxy clusters from that time period in the cosmos. The findings “could be telling us that galaxies are forming at a younger age than we thought,” in the early universe, explains graduate student Michael Calzadilla. “That’s challenging our timeline of when things happened.”
Prof. Tracy Slatyer and Prof. Janet Conrad speak with Scientific American reporter Clara Moskowitz about their favorite discoveries in the field of physics. Slatyer notes that “the accelerating expansion of the universe has to be a strong contender.” For Conrad, “I think my favorite event in physics was the prediction of the existence of the neutrino [a subatomic particle with no charge and very little mass] because so much of our fundamental approach to physics today grew out of that moment.”
Researchers at MIT have discovered that the ocean’s color has changed considerably in the last 20 years and is “another warning sign of human-driven climate change,” reports Maria Luisa Paul for The Washington Post. “These ecosystems have taken millions of years to evolve together and be in balance,” says Senior Research Scientist Stephanie Dutkiewicz. “Changes in such a short amount of time are not good because they put the whole ecosystem out of balance.”
In an article for The Boston Globe, Prof. Emeritus Ernest Moniz explores the risks associated with the cesium-137 devices used in hospitals. “Boston hospitals have an opportunity to receive tens of thousands of dollars of grants toward the purchase of new equipment that is just as effective for medical and research purposes as the radiological devices they have been using for decades,” writes Moniz, “while shedding the liabilities and security costs associated with cesium sources.”
Researchers from MIT’s Plasma Science and Fusion Center and Commonwealth Fusion Systems (CFS) are using high-temperature superconducting tape as a key part of the design for their tokamak reactor, reports Tom Clynes for IEEE Spectrum. The researchers believe that “this novel approach will allow it to build a high-performance tokamak that is much smaller and less expensive than would be possible with previous approaches,” Clynes notes.
MIT researchers are hoping to use Dyson maps “to translate the language of classical physics into terms that a quantum computer—a machine designed to solve complex quandaries by leveraging the unique properties of quantum particles—can understand,” reports Darren Orf for Popular Mechanics.
MIT researchers have found that over the past two decades, the color of the world’s oceans has changed significantly, reports Talib Visram for Fast Company. The change “is likely due to human-induced climate change,” explains Visram. “The color shifts matter in that they signal changes in ecosystem balance, which have the power to disrupt fragile marine food webs.”
CNN reporter Jack Guy spotlights a new study co-authored by researchers at MIT, which shows that the ocean’s color has changed considerably over the last 20 years and human-caused climate change is likely responsible. “All changes are causing an imbalance in the natural organization of ecosystems,” says senior research scientist Stephanie Dutkiewicz. “Such imbalance will only get worse over time if our oceans keep heating.”
Researchers at MIT and elsewhere have discovered that the ocean’s hue has changed significantly over the last 20 years, reports Laura Baisas for Popular Science. “A shift in ocean color is an indication that ecosystems within the surface may also be changing,” writes Baisas. “While the team can’t point to exactly how marine ecosystems are changing to reflect the shift, they are quite sure that human-induced climate change is likely behind it.”