Writing for The New York Times, Dennis Overbye examines LIGO’s third successful detection of gravitational waves. “We are moving in a substantial way away from novelty towards where we can seriously say we are developing black-hole astronomy,” says David Shoemaker, director of the MIT LIGO Lab and spokesperson for the LIGO Scientific Collaboration.
CBS News reporter William Harwood writes that LIGO scientists have detected the merger of two black holes three billion light years away. David Shoemaker, director of the MIT LIGO Lab and the spokesperson for LIGO, explains that researchers detected, “the merging of black holes roughly 20 and 30 times the mass of our sun.”
MIT’s David Shoemaker, spokesperson for the LIGO Scientific Collaboration, speaks with Doyle Rice of USA Today about LIGO’s third successful detection of gravitational waves. “It is remarkable that humans can put together a story, and test it, for such strange and extreme events that took place billions of years ago and billions of light-years distant from us,” explains Shoemaker.
For the third time, researchers from the LIGO Scientific Collaboration have detected gravitational waves produced by the merger of two black holes, reports Irene Klotz for Reuters. “We’re really moving from novelty to a new observational science,” says MIT's David Shoemaker, spokesperson for the LIGO Scientific Collaboration.
Wall Street Journal reporter Robert Lee Hotz writes that scientists from the Laser Interferometer Gravitational-Wave Observatory (LIGO) have successfully detected two black holes merging for the third time. MIT’s David Shoemaker, spokesperson for the LIGO Scientific Collaboration, explains that the discovery shows, “we are really moving to a new astronomy of gravitational waves.”
MIT researchers have observed a black hole devouring a star, reports Torah Kachur for CBC News. After looking at about a year’s worth of data, researchers found that the “star was getting pulled apart and literally shredded into a debris stream that spiraled around the center of this black hole,” writes Kachur.
Elizabeth Howell writes for Scientific American that a team of researchers, including scientists from MIT, have observed that when a black hole consumes a star there is a burst of electromagnetic activity. Howell explains that the “new research suggests that interactions among the debris could generate the optical and UV emission.”
Calla Cofield writes for Scientific American that a grant will allow the HERA team to search for light from the universe’s first generation of stars. Prof. Jacqueline Hewitt, who is leading the grant, says it’s “remarkable we're designing instruments so we can detect what was happening 13 billion years ago.”
MIT researchers have observed a black hole devouring a star almost 300 million light years away, writes Andy Rosen for The Boston Globe. “We are actually mapping out in real time what is happening as the star is getting ripped [apart] and it’s falling onto the black hole,” says postdoctoral fellow Dheeraj Pasham.
Brooks Hays writes for UPI about a new study showing that supermassive black holes consume stellar debris in bursts. "What we're seeing is, this stellar material is not just continuously being fed onto the black hole, but it's interacting with itself," explains Dheeraj Pasham, a researcher at MIT's Kavli Institute and co-author of the paper.
A study by Prof. Michael McDonald details how a black hole in the Phoenix cluster is producing star-making fuel, reports Andy Rosen for The Boston Globe. “It’s an extreme system that doesn’t seem to follow all the rules that we’ve found, so it gives us a clue to what the rules are,” McDonald explains.
Postdoc Jennifer Burt speaks with Boston Globe reporter Andrew Grant about a new database of nearby stars that has been made publically available. “This could be a great way to get undergrad and high school students involved in science,” Burt explains. “We’re inspiring the next generation of scientists and that’s awesome.”
The writers and editors of Science named the successful detection of gravitational waves by researchers from MIT, Caltech and the LIGO Scientific Collaboration as their top breakthrough of 2016. Science reporter Adrian Cho writes that “physicists are eagerly anticipating what may come next, because gravitational waves promise an entirely new way to peer into the cosmos.”
In their round up of the top science stories of 2016, Science News highlighted several MIT research breakthroughs. The top story of the year was the successful detection of gravitational waves by researchers from MIT, Caltech and the LIGO Scientific Collaboration. Another highlight was the discovery by Prof. Susan Solomon that the hole in the ozone layer over Antarctica is shrinking.
Prof. Emeritus Rainer Weiss and the LIGO team were honored as recipients of the 2016 Breakthrough Prizes during a ceremony in California, reports Lisa Krieger for Mercury News. The LIGO team was honored for their “observation of gravitational waves, a discovery which opens new horizons in astronomy and physics.”