Bridgit Mendler SM '20, PhD '24 has co-founded Northwood Space, a startup working to mass produce ground stations that connect to satellites in space, reports Michael Sheetz for CNBC. “The vision is a data highway between Earth and space,” says Mendler. “Space is getting easier along so many different dimensions but still the actual exercise of sending data to and from space is difficult. You have difficulty finding an access point for contacting your satellite.”
Prof. Paulo Lozano speaks with Kaity Kline of NPR’s Morning Edition about the space stations of the future and how NASA collaborating with private companies on the development of the next iteration of the International Space Station could spur new technological advancements. “Once you have entrepreneurship and you have a commercial interest, that accelerates technology development,” says Lozano.
Researchers from MIT and elsewhere have proposed a new method to look for primordial black holes (PMBs), reports Jackie Appel for Popular Mechanics. “If there are as many as the team thinks there should be, and they interact with gravity as we expect them to, they should be zooming around in a way that some of them should pass close by various objects in our solar system – including Earth,” explains Appel. “And if that happens, it should actually be enough to disturb the natural orbits of these objects in a way that we can measure.”
Forbes contributor Jamie Carter spotlights a new study co-authored by MIT scientists that suggests, “the absence of carbon dioxide in a rocky planet’s atmosphere—relative to others in the same star system—may indicate the presence of liquid water on the planet’s surface.”
Gizmodo reporter George Dvorsky spotlights the Venus Life Finder mission, developed by researchers from MIT and Rocket Lab, which will be launching no earlier than December 2024. “The mission will send a small probe, equipped with a single science instrument, to analyze organic molecules and potential signs of life in the Venusian atmosphere,” writes Dvorsky.
Ariel Ekblaw, director of the MIT Media Lab Space Exploration Initiative, speaks with Wired reporter Ramin Skibba on a panel discussion on the future of space exploration. “In the future, instead of thinking about space habitats and life in space as a domain where it’s just about survival, which it has certainly been until recently, we’re at this inflection point,” says Ekblaw. “We can begin to think about thriving in space, designing space architecture that is welcoming to more of the public that doesn’t just look like a science lab on orbit and so to be able to do that, we need responsive space habitats, really capable integration of all kinds of different systems, and AI will have a huge role in that.”
Prof. Sara Seager and her colleagues have discovered “a six-pack of planets, formed at least 4 billion years ago,” that orbit a nearby sun-like star named HD110067, reports Joel Achenbach for The Washington Post. “Occasionally, nature reveals an absolute gem,” says Seager. “HD 110067 is an immediate astronomical Rosetta stone – offering a key system to help unlock some mysteries of planet formation and evolution.”
A number of MIT spinouts and research projects – including the MOXIE instrument that successfully generated oxygen on Mars, a new solar-powered desalination system and MIT spinout SurgiBox – were featured on TIME’s Best Inventions of 2023 list.
MIT researchers are leading three missions over the next decade to characterize Venus’ atmosphere for habitability, reports Bruce Dorminey for Forbes. “Understanding Venus is key to understanding exo-earths,” writes Dorminey.
USA Today reporter Zoe Wells spotlights the Mars MOXIE device developed by MIT researchers, which “has already made 122 grams of oxygen, comparable to 10 hours of breathable air for a small dog. MOXIE produced 12 grams of oxygen per hour at 98% purity, which exceeded NASA's original expectations.”
MIT researchers have developed a new satellite observation technique that can gauge how fast rivers flowed on Mars billions of years ago and how fast they currently flow on Titan, Saturn’s largest moon, reports Talia Lissauer for The Boston Globe. “We can use these other worlds to help us understand what keeps planetary climate stable, or in some cases, what allows planetary climate to change really drastically over time like on Mars,” says Prof. Taylor Perron.
Prof. Lonnie Petersen speaks with Boston Globe reporter Kay Lazar about the need to prepare doctors to provide medical care in space. “As we have more commercial space flight, we will have a different composition of crew members, we will see more preexisting conditions, the age range will expand, and obviously the way we do medicine is evolving,” Petersen said.
Researchers from MIT have developed a new satellite observation technique that can help gauge the strength of ancient rivers on Mars and active liquid methane rivers on Titan, Saturn’s largest moon, reports Jamie Carter for Forbes. “What’s exciting about Titan is that it’s active, and on Mars, it gives us a time machine, to take the rivers that are dead now and get a sense of what they were like when they were actively flowing,” says Prof. Taylor Perron. “With this technique, we have a method to make real predictions for a place where we won’t get more data for a long time.”
Using a new satellite observation technique, researchers from MIT and elsewhere have determined the flow of dried-up rivers on Mars and currently active liquid methane rivers on Titan, Saturn’s largest moon. “Both kinds are of scientific interest because they could reveal the role rivers play in shaping the worlds’ environments,” reports Isaac Schultz for Gizmodo.
Postdoc Josh Borrow and his colleagues used simulations to explore how early-universe galaxies born inside alternative dark matter halos start out, and what happens as they grow, reports Lyndie Chiou for Scientific American. “The simulations also revealed a new discovery: a connection between alternative dark matter types and starbursts, periods of extremely rapid star formation inside a galaxy.”