Popular Science reporter Leto Sapunar spotlights the efforts of MIT researchers who are investigating the origins of a fast blue optical transient nicknamed “the Cow.” To research scientist Dheeraj “DJ” Pasham, “this looks like a sign that matter is closely orbiting a ‘newborn’ black hole or a type of neutron star called a magnetar, and the matter shines with x-rays each time it completes a quick orbit,” writes Sapunar.
Axios reporter Miriam Kramer notes that scientists from MIT and other institutions are planning a mission to probe the atmosphere of Venus for any potential signs of life. The probe “will come equipped with a laser designed to help it figure out what kind of chemistry is happening in droplets in Venus' atmosphere during a three-minute flight through the planet's clouds,” writes Kramer.
Newsweek reporter Robert Lea spotlights how MIT researchers traced the source of a bright blue cosmic explosion to the birth of a neutron star or black hole. “We have likely discovered the birth of a compact object in a supernova” says research scientists Dheeraj “DJ” Pasham. “This happens in normal supernovae, but we haven’t seen it before because it’s such a messy process. We think this new evidence opens possibilities for finding baby black holes or baby neutron stars.”
Gizmodo reporter Isaac Schultz writes that MIT astronomers have found that a black hole or neutron star may have been produced by a burst of stellar light, known as “the Cow." “I think the Cow is just the beginning of what is to come,” explains research scientist Dheeraj “DJ” Pasham. “More such objects would provide a new window into these extreme explosions.”
New Scientist reporter Leah Crane writes that astronomers have found evidence that a large stellar explosion detected in 2018 was likely caused by a dying star that gave birth to a neutron star or small black hole. “People have been suspecting that these kind of extreme explosions could be the birth of black holes or neutron stars, but this is a final piece of evidence that I think really settles the case,” says research scientist Dheeraj “DJ” Pasham.
MIT researchers have uncovered evidence that the creation of a new black hole or neutron star caused a strange blue flash of light in space that was detected in 2018, reports Téa Kvetenadze for Forbes. An explanation for the event was elusive until researchers “focused on the X-rays emitted by the flash and found the Cow was producing a pulse of X-rays every 4.4 milliseconds.”
CNET reporter Monisha Ravisetti writes that MIT researchers have found that a super-bright stellar explosion detected in 2018 likely gave rise to a new black hole or neutron star. "Usually, I dare not say 'first time,'" explains research scientist Dheeraj "DJ" Pasham. "But I truly think this is the first time that you have direct confirmation, so to say, that a star dies and you immediately see the baby compact object."
Marcos Berríos ‘06, Christina Birch PhD ’15, and Christopher Williams PhD ’12 are among the ten selected to be a part of NASA’s 2021 astronaut candidate class, reports Emre Kelly for USA Today. “Flanked by T-38 Talon jets to be used over their two-year training course at Johnson Space Center in Houston, NASA officials introduces the 2021 class of six men and four women in front of their families, friends, and soon-to-be colleagues,” writes Kelly.
Marcos Berríos ‘06, Christina Birch PhD ‘15 and Christopher Williams PhD ’12 have been selected as part of NASA’s 2021 astronaut candidate class, reports WBUR’s Bill Chappell. “Alone, each candidate has ‘the right stuff,’ but together they represent the creed of our country: E pluribus unum – out of many, one,” said NASA Administrator Bill Nelson.
Marcos Berríos ‘06, Christina Birch PhD ‘15, Christopher Williams PhD ‘12 are among the ten astronauts selected for the 2021 NASA astronaut class, reports Breanna Kovatch for The Boston Globe. “The class of astronauts were selected from among 12,000 candidates and is the first class in four years,” writes Kovatch.
CNN reporter Ashley Strickland writes that NASA’s Transiting Exoplanet Survey Satellite (TESS), an MIT-led mission, has discovered an exoplanet approximately the size of Mars where a year lasts for about eight hours. “Astronomers are eager to learn more about these small planets that quickly spin around their stars in less than 24 hours because they are not sure how they form and end up in such an extreme orbit,” writes Strickland.
A team of astronomers, including MIT researchers, has discovered an ultrahot Jupiter that orbits its star in just 16 hours, reports Robert Lea for Newsweek. “Ultrahot Jupiters such as TOI-2109b constitute the most extreme subclass of exoplanet,” explains former MIT postdoc Ian Wong. “We have only just started to understand some of the unique physical and chemical processes that occur in their atmospheres – processes that have no analogs in our own solar system.”
Newsweek reporter Robert Lea writes that astronomers from MIT and elsewhere have found evidence of a large planetary collision that stripped the atmosphere from a planet. “While astronomers have long believed these kinds of collisions are common throughout the Universe, this is the first time that they have spotted evidence of one that stripped an atmosphere in such a way around a distant star,” writes Lea.
A new study co-authored by MIT researchers presents the first evidence that a distant planet had its atmosphere partially blown away by a large impact, reports Charles Choi for Space.com. "I think a really critical implication is that the gas that is released in the aftermath of a giant impact can last for a long time, and it can affect the way the system evolves long-term," explains graduate student and lead author Tajana Schneiderman.
Researchers from MIT and other institutions have been able to observationally confirm one of Stephen Hawking’s theorems about black holes, measuring gravitational waves before and after a black hole merger to provide evidence that a black hole’s event horizon can never shrink, reports Caroline Delbert for Popular Mechanics. “This cool analysis doesn't just show an example of Hawking's theorem that underpins one of the central laws affecting black holes,” writes Delbert, “it shows how analyzing gravitational wave patterns can bear out statistical findings.”