MIT researchers have developed an algorithm that can predict rogue waves, reports Matt Burgess for Wired. Burgess explains that the algorithm uses “statistical data, collected from buoys in the ocean, to quantify the range of possible waves for any body of water.”
Popular Science reporter Mary Beth Griggs writes that MIT researchers have developed a new tool that could provide advanced warning of rogue waves. The tool should allow crews “to detect rogue wave minutes before they form, giving them enough time to adjust course, or at least hang on.”
Inside Higher Ed's Carl Straumsheim speaks with Dr. Peter Fritschel about how LIGO researchers selected Physical Review Letters to publish the team’s discovery of gravitational waves. After LIGO members cast their votes, Fritschel explained that PRL was a “pretty clear winner,” citing its reputation as a “premier journals for physics results.”
Tech Insider’s Chris Weller reports on a new study by MIT researchers that examines how sneezes travel and spread viruses. The findings could help researchers “predict and prevent disease spread,” Weller explains. “If they know how quickly a pathogen spreads via sneeze, then they can learn more about the risks posed by the viruses themselves.”
MIT researchers have found that two types of turbulence within plasma could explain the heat loss that takes place in fusion reactors, reports Thomas Tamblyn for The Huffington Post. “With the mystery solved, researchers can now better understand how the plasma reacts and then in turn start working on fundamental ways to combat it.”
Prof. Matthew Evans speaks with Joshua Sokol of New Scientist about the LIGO findings. “Until this detection, there was a question about the existence of binary black hole systems,” Evans explains. “So it is a pleasant surprise for us to have detected them.”
DAWN profiles Prof. Nergis Mavalvala, highlighting her work on LIGO, and what inspired her interest in physics and the hunt for gravitational waves. “Even when Nergis was a freshman, she struck me as fearless, with a refreshing can-do attitude,” says Robert Berg, a professor of physics at Wellesley College.
Profs. Rainer Weiss and Nergis Mavalvala speak with Tom Ashbrook, host of NPR’s On Point, about the detection of gravitational waves. “We fully expect, as with every revolution in astronomy, that when you open a new way of looking at it [the universe] you will learn things that I can’t even tell you yet,” says Weiss.
Joshua Sokol writes for New Scientist that the detection of gravitational waves will allow researchers to explore the universe’s most exotic objects. “Imagine you’re playing the movie of the universe. This is going to be the end of the silent movie era in astronomy because you have just added sound,” says Senior Research Scientist Erik Katsavounidis.
WBUR's Bruce Gellerman speaks with Prof. Nergis Mavalvala about what the detection of gravitational waves means for the future of astronomy. “The discovery itself is spectacular, but it’s the potential for what comes next that’s even bigger,” says Mavalvala. “We are really witnessing the opening of a new way of doing astronomy.”
Kendra Pierre-Louis writes for Motherboard about the work behind the LIGO team's detection of gravitational waves. Pierre-Louis explains that in the 1960s, Prof. Rainer Weiss was teaching a class on gravitational physics and “devised a method that he felt was theoretically more rigorous, using a clock and laser beams” to detect gravitational waves.
MIT researchers used high-speed cameras to examine how sneezes travel, reports Gillian Mohney for ABC News. The researchers found that “instead of a uniform cloud of droplets, a single sneeze would fragment in the air similar to paint being flung onto a canvas.”
In an article for Sky & Telescope, Robert Naeye writes about how the first detection of gravitational waves unleashes new possibilities for observing additional events in the universe. "This is the end of the silent-movie era in astronomy,” explains Senior Research Scientist Erik Katsavounidis.
Professors Matthew Evans and Nergis Mavalvala speak with CBS Boston about the LIGO Scientific Collaboration’s findings. “We heard, essentially, the largest thing that nature could produce and that means we are only barely not deaf. We’re just starting to detect things,” says Evans.
In an interview with WCVB’s Pam Cross, Professors Matthew Evans and Nergis Mavalvala describe the sounds of the recently detected gravitational waves. “We can listen to things happening in the universe, and this first signal is like the first big bump in the night,” Evans says.