Skip to content ↓

Topic

School of Science

Download RSS feed: News Articles / In the Media / Audio

Displaying 631 - 645 of 1611 news clips related to this topic.
Show:

The Boston Globe

The CHIME radio telescope has catalogues more than 500 fast radio bursts (FRBs), which could be used to help map the universe, reports Charlie McKenna for The Boston Globe. FRBs are “kind of like lighthouses or sonar pings,” explains graduate student Calvin Leung, “and for the very first time we’ve shown that we can detect them in large enough quantities that you can really use them to make statements like, ‘Oh, the universe is expanding at this rate,’ or ‘This is how much matter there is in the whole universe.’”

Inverse

Inverse reporter Passant Rabie explores how the CHIME radio telescope has identified more than 500 fast radio bursts in its first year of operation, providing clues as to the structure of the universe. “With enough of them, they are going to be the ultimate tool for mapping the universe,” says Prof. Kiyoshi Masui.

The Washington Post

Prof. Eric Lander will be sworn into his new post as director of the White House Office of Science and Technology Policy on a 500-year-old Jewish text, reports Jack Jenkins for The Washington Post. The question of what book to use for the swearing-in ceremony made him think of the choice as “a statement of what’s in my mind and what’s in my heart.”

New Scientist

In an interview with Clare Wilson of New Scientist, Prof. Ed Boyden, one of the co-inventors of the field of optogenetics, discusses how the technique was used to help partially restore vision for a blind patient. “It’s exciting to see the first publication on human optogenetics,” says Boyden.

New York Times

Prof. Ed Boyden speaks with New York Times reporter Carl Zimmer about how scientists were able to partially restore a patient’s vision using optogenetics. “So far, I’ve thought of optogenetics as a tool for scientists primarily, since it’s being used by thousands of people to study the brain,” says Boyden, who helped pioneer the field of optogenetics. “But if optogenetics proves itself in the clinic, that would be extremely exciting.”

7 News

Prof. Troy Littleton and graduate student Karen Cunningham speak with 7 News about how Littleton placed a crib in his lab for Cunningham’s young daughter to help create a safe place for her if she needs to accompany her mother to work. Cunningham says Littleton “has a long history of supporting parents and just generally has a history of supporting parents in the lab with whatever their needs are.”

Climate Now

Prof. Kerry Emanuel speaks with Ozak Esu and James Lawler of Climate Now about how we know the climate is changing. “We have high confidence that this very high rate of warming, by the standards of the geological past, is owing to the measured incontrovertible increase in greenhouse gases," says Emanuel.

The Boston Globe

A coalition of students, faculty and alumni have come together to raise the funds necessary to replace the radome that sits atop the Building 54, reports Hiawatha Bray for The Boston Globe. “Once the overhaul is complete, MIT’s radio buffs, astronomers, and satellite researchers will have a tool that will serve them for decades,” writes Bray. “And they’ll have also preserved one of the school’s most famous landmarks.”

Good Morning America

Reporting for Good Morning America, Kate Kindelan spotlights how Prof. Troy Littleton has placed a travel crib in one of his lab’s offices so his graduate student, Karen Cunningham, can bring her 10-month-old child to work with her when needed. “These sort of local ways that people in positions of power can protect parents against the systemic things, like what Troy's been doing in creating a really supportive and inclusive lab, I think that does make a really big difference and it's great to have an example of that,” says Cunningham.

Axios

Axios reporter Miriam Kramer writes that a new study co-authored by MIT researchers suggests that all black holes go through a similar cycle when feeding, whether they are big or small. “Black holes are some of the most extreme objects found in our universe,” writes Kramer. “By studying the way they grow, scientists should be able to piece together more about how they work.”

The Boston Globe

Boston Globe reporter Charlie McKenna writes that a new study co-authored by MIT researchers finds that the way black holes evolve as they consume material is the same, no matter their size. “What we’re demonstrating is, if you look at the properties of a supermassive black hole in the cycle, those properties are very much like a stellar-mass black hole,” says research scientist Dheeraj “DJ” Pasham. The findings mean “black holes are simple, and elegant in a sense.”

The Academic Times

Academic Times reporter Monisha Ravisetti writes that a new study by physicists from a number of institutions, including MIT, finds that supermassive black holes devour gas just like their smaller counterparts. “This is demonstrating that, essentially, all black holes behave the same way,” says research scientist Dheeraj “DJ” Pasham. “It doesn’t matter if it’s a 10 solar mass black hole or a 50 million solar mass black hole – they appear to be acting the same way when you throw a ball of gas at it.”

New Scientist

New Scientist reporter Leah Crane writes that researchers from the LIGO and Virgo gravitational wave observatories have potentially detected primordial black holes that formed in the early days of the universe. “When I started this, I was expecting that we would not find any significant level of support for primordial black holes, and instead I got surprised,” says Prof. Salvatore Vitale.

Wired

Wired reporter Max Levy spotlights Prof. Emery Brown and Earl Miller’s research examining how neurons in the brain operate as “consciousness emerges and recedes—and how doctors could better control it.” Levy writes that “Miller and Brown's work could make anesthesia safer, by allowing anesthesiologists who use the EEG to more precisely control drug dosages for people who are unconscious.”

Science

In an editorial for Science, Prof. Sangeeta Bhatia, Prof. Emerita Nancy Hopkins and President Emerita Susan Hockfield underscore the importance of addressing the underrepresentation of women and minorities in tech transfer. “The discoveries women and minority researchers are making today have great potential as a force for good in the world,” they write, “but reaching that potential is only possible if paths to real-world applications are open to everybody.”