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.
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.
Prof. Sara Seager speaks with Tom Metcalfe of NBC News about the Venus Life Finder missions, which will carry a robotic space payload partially funded by MIT alumni to Venus to search for signs of life in the planet's atmosphere. “Space is becoming cheaper in general, and there is more access to space than ever before,” says Seager.
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.
Gizmodo reporter George Dvorsky writes that astronomers have found two red asteroids, which resemble objects typically found beyond Neptune, in the main asteroid belt between Mars and Jupiter. “This finding suggests some asteroids in the main belt formed in the outer solar system, and that a population of these objects is likely to exist within the main belt,” writes Dvorsky.
A new study co-authored by postdoctoral associate Michaël Marsset details how two red objects that have been discovered in the asteroid belt between Mars and Jupiter appear to have originated beyond Neptune, reports Jonathan O’Callaghan for The New York Times. “In order to have these organics, you need to initially have a lot of ice at the surface,” explains Marsset. “So they must have formed in a very cold environment.”
In a series of papers, the New Horizons team, which includes MIT researchers, reveals that there may be a slushy subsurface ocean on Pluto, reports Rebecca Boyle for The Atlantic. “The research suggests that many other distant worlds in the Kuiper Belt might also hold inner oceans of water, or other liquids,” Boyle explains.
Researchers involved with the NASA New Horizons mission have uncovered evidence that an ocean of ice water lies beneath Pluto’s heart-shaped basin, reports Irene Klotz for Reuters. Prof. Richard Binzel explains that the findings show that “nature is more creative than we are able to imagine, which is why we go and explore."
Boston Globe reporter Olivia Quintana writes that the NASA New Horizons team, which includes MIT researchers, has collected data that suggests there is a slushy ocean of ice water beneath Pluto’s surface. “I think the big picture is that this is telling us that Pluto is much more complicated, much more fascinating than we ever imagined,” explains Prof. Richard Binzel.
Olivia Quintana from The Boston Globe speaks to Prof. Richard Binzel one year after the New Horizons spacecraft transmitted photos of Pluto’s surface to Earth. “In the past year we’ve decided to try to understand what we’re seeing,” says Prof. Binzel. “It’s an active planet. There are processes going on. Its surface is constantly changing.”
Carolyn Johnson of The Boston Globe reports on Prof. Benjamin Weiss’ research examining evidence that the moon had a magnetic field. Johnson writes that analysis of moon rocks has shown that the moon "had a magnetic field caused by an ancient core dynamo.”