Scientists from MIT and other institutions have developed the largest, most detailed computer model of the universe’s first billion years, which could help shed light on how the early universe evolved, reports Charles Q. Choi for Scientific American. The model, named THESAN, “can track the birth and evolution of hundreds of thousands of galaxies within a cubic volume spanning more than 300 million light-years across.”
Researchers at MIT have developed an automated search tool that can help astronomers identify the echoes emitted by a specific type of black hole, reports Juandre for Popular Mechanics. “The team’s algorithm, which they dubbed the ‘Reverberation Machine,’ pored through data collected by the Neutron Star Interior Composition Explorer, an x-ray telescope mounted to the International Space Station,” writes Juandre. “They identified previously undetected echoes from black hole binary systems in our galaxy.”
MIT astronomers have used light echoes from X-ray bursts to try to map the environment around black holes, reports Dennis Overbye for The New York Times. Prof. Erin Kara then worked with education and music experts to transform the X-ray reflections into audible sound. “I just love that we can ‘hear’ the general relativity in these simulations,” said Kara.
CNN reporter Ashley Strickland writes that MIT astronomers developed an automated search tool and were able to “pin down the locations of eight rare pairings of black holes and the stars orbiting them, thanks to the X-ray echoes they release.”
Inverse reporter Charles Q. Choi writes that MIT astronomers have observed what appears to be the most tightly coupled black widow binary yet. "The one thing I know for sure is we really have never seen anything quite like this object,” says postdoctoral fellow Kevin Burdge, “and that there is probably a lot more to learn from it and other similar objects that I am finding right now, and that's what has me so excited about these."
MIT astronomers have detected what appears to be a black widow binary with the shortest orbital period ever recorded, reports Becky Ferreira for Vice. “It behaves exactly like a black widow in many, many ways,” says postdoctoral fellow Kevin Burdge, “but it also does a few new things that we've never seen before in any known black widow.”
Vice reporter Becky Ferreira writes that MIT researchers developed a new system, called the Reverberation Machine, to detect the echoes from eight new echoing black hole binaries. “These echoes offer a rarely seen glimpse into the otherworldly surroundings of stellar-mass black holes, which are about five to 15 times the mass of the Sun,” writes Ferreira.
MIT researchers have detected eight echoing black hole binaries in the Milky Way and then converted the black hole X-ray emissions into sound waves, reports Isaac Schultz for Gizmodo. The researchers developed a new tool, dubbed the Reverberation Machine, which “combed satellite data from NICER, a telescope aboard the International Space Station that studies X-ray emissions from sources like black holes and neutron stars, including a weird type of emission known as an ‘echo.’”
Researchers from MIT and the University of Waterloo have developed a new approach aimed at significantly increasing the probability of observing the Unruh effect, reports Juandre for Popular Mechanics. “Now at least we know there is a chance in our lifetimes where we might actually see this effect,” says Prof. Vivishek Sudhir. “It’s a hard experiment, and there’s no guarantee that we’d be able to do it, but this idea is our nearest hope.”
Nature Physics senior editor Silvia Milana spotlights “Carbon Queen: The Remarkable Life of Nanoscience Pioneer Mildred Dresselhaus” a new book written by MIT News Deputy Editorial Director Maia Weinstock. “Carbon Queen does not only capture the journey into the personal and professional life of an outstanding figure in carbon science, it is a careful account of the evolution of societal attitudes towards women from the 1950s to today” writes Milana.
Qichao Hu ’07 - founder and CEO of SES, a battery research company and supplier to the electric vehicle industry - speaks with Wired reporter Omar L. Gallaga about electric vehicle batteries. “Huge battery innovations happen about every 30 years, according to HU, and the good news is we’re about due for the next evolution,” writes Gallaga
FTX CEO Sam Bankman-Fried ‘14 speaks with Bloomberg reporter Zeke Faux about his work in cryptocurrency and the influence of the effective-altruism movement in his philanthropic work. Bankman-Fried explains that he plans to “keep enough money to maintain a comfortable life," writes Faux. “Other than that, he still plans to give it all away – every dollar, or Bitcoin, as the case may be.”
Researchers from MIT and other institutions have developed a new simulation that illuminates how stars formed in the early universe, reports Martin Finucane for The Boston Globe. “It was a neutral, dark cosmos that became bright and ionized as light began to emerge from the first galaxies,” explains Aaron Smith, a NASA Einstein Fellow in MIT’s Kavli Institute for Astrophysics and Space Research.
Researchers from MIT have developed a new fabric that can hear and interpret what’s happening on and inside our bodies, reports Elana Spivack for Inverse. Beyond applications for physical health the researchers envision that the fabric could eventually be integrated with “spacecraft skin to listen to [accumulating] space dust, or embedded into buildings to detect cracks or strains,” explains Wei Yan, who helped develop the fabric as an MIT postdoc. “It can even be woven into a smart net to monitor fish in the ocean. It can also facilitate the communications between people who are hard of [hearing].”
MIT researchers have developed a new simulation of the early universe, shedding light onto the period when the first stars were formed, reports Audrey Carleton for Vice. “Using existing models of the early universe and of cosmic dust, matched with new code created to interpret how light and gas interacted with one another, they created a visual depiction of the growth of the universe,” writes Carleton.