In an article and video, USA Today explores the significance of the first detection of gravitational waves. “We have now discovered something that most people don’t see because they don’t have a gravitational wave antenna, but they learn now from us that these things exist and they will learn more about this,” explains Prof. Rainer Weiss.
The New Yorker’s Nicola Twilley writes about the history of the LIGO Scientific Collaboration. “Most of us thought that, when we ever saw such a thing, it would be something that you would need many, many computers and calculations to drag out of the noise,” explains Prof. Rainer Weiss.
Prof. Matthew Evans speaks with Ari Daniels of PRI’s The World about the successful detection of gravitational waves. "It’s as if we had an enormous hearing aide, which let us pick up the sounds that the universe has been producing — we just have been deaf to these sounds up until now," Evans says.
In an article for The Boston Globe, David Abel speaks with a number of MIT researchers involved in the successful hunt for gravitational waves. “For the first time, we’ve been able to listen to the sounds that the universe has been transmitting to us from the beginning of time,” explains Prof. Nergis Mavalvala.
Dennis Overbye of The New York Times reports on the discovery of gravitational waves. Overbye explains that the detection is a “triumph for three physicists — Kip Thorne of the California Institute of Technology, Rainer Weiss of the Massachusetts Institute of Technology and Ronald Drever — who bet their careers on the dream of measuring the most ineffable of Einstein’s notions.”
Prof. Nergis Mavalvala speaks with Meghna Chakrabarti, host of WBUR’s Radio Boston, about the efforts behind the detection of gravitational waves. “This is just the start,” explains Mavalvala. “These detectors are going to get better and we are just going to listen to more and more music from the universe.”
Reuters reporters Scott Malone and Will Dunham report on the significance of scientists detecting gravitational waves. "We are really witnessing the opening of a new tool for doing astronomy," explains Prof. Nergis Mavalvala. "We have turned on a new sense. We have been able to see and now we will be able to hear as well."
An international team of scientists, including researchers from MIT, has detected gravitational waves, reports Joel Achenbach and Rachel Feltman for The Washington Post. The detection inaugurates “a new era of astronomy in which gravitational waves are tools for studying the most mysterious and exotic objects in the universe.”
The Wall Street Journal’s Monika Auger reports that a team of astronomers, including researchers from MIT, have discovered the largest galaxy cluster formed in the early universe. “Astronomers believe that this galaxy cluster probably began forming only a few hundred-million years after the Big Bang,” explains Auger.
Chris Sweeney writes for Boston Magazine that MIT researchers were part of a team of astronomers that identified the largest galaxy cluster from the early universe. Sweeney writes that researchers “will continue scouring the data in search of additional galaxies while looking for clues to how the universe formed.”
MIT researchers have detected the largest galaxy cluster that amassed in the early universe, writes Laura Crimaldi for The Boston Globe. “It’s the most massive cluster to assemble in the first 4 billion years of the universe,” explains Prof. Michael McDonald. “It’s sort of like the first civilization to pop up.”
In an article for a Wall Street Journal section on predictions for 2016, Prof. Frank Wilczek writes that physicists will soon be able to detect gravitational waves. Gravitational waves will, Wilczek explains, allow scientists to “monitor some of the most violent, dramatic events the universe has to offer.”
An Earth-like planet 39 light-years away from Earth could provide researchers with an opportunity to study another planet’s atmosphere, reports Chukwuma Muanya for The Guardian. “Because it is so close, the air and clouds above GJ 1132b could be studied in detail using space and ground-based telescopes,” Muanya explains.
Jonathan Amos reports for BBC News on the discovery of a nearby exoplanet that is orbiting a red dwarf star. Amos explains that researchers are interested in studying Earth-sized exoplanets as “it may be their best bet of establishing whether or not life exists beyond our Solar System.”
Huffington Post reporter Nitya Rajan writes that the discovery of an Earth-sized exoplanet by MIT researchers could be an important step in the search for extraterrestrial life. The planet is “close enough for experts to better understand the different types of atmospheres that could support life.”