Prof. Sara Seager speaks with Boston Globe reporter Matt Yan about how she plans to use the James Webb Space Telescope to compare when an exoplanet is in front of a star and when it is not. “By comparing those two measurements, they’re going to be a tiny bit different,” says Seager, adding that when the planet "in front of the start is blocking some of the starlight, in particular, the atmosphere blocks some of the starlight, and so we can tell what’s in the planet atmosphere.”
MIT researchers have proposed a conceptual hovering rover that would use the moon’s static charge to stay airborne, reports Elizabeth Howell for Forbes. “We think a future [moon] mission could send out small hovering rovers to explore the surface of the moon and other asteroids,” says graduate student Oliver Jia-Richards.
MIT researchers have tested the concept for a hovering rover, a spacecraft that could use the moon’s electric field to levitate over its surface, reports Tatyana Woodall for Popular Science. Graduate student Oliver Jia-Richards explains that the team’s idea for a disc-like rover “potentially provides a much more precise and easier way of maneuvering on these rough terrain and low gravity environments.”
Popular Science reporter Nikita Amir writes that a new study co-authored by MIT researchers finds has identified a chemical pathway by which life could make a home for itself in Venus’ toxic clouds by producing ammonia. “Life on Venus, if it exists, is not like life on Earth,” says research affiliate Janusz Petkowski. “It’s life as we don’t know it. The only question is, to what degree it is different?”
MIT researchers have proposed testing a concept for a levitating rover that could operate by using the moon’s electric field, reports Andrew Liszewski for Gizmodo. Liszewski writes that “the researchers believe a levitating rover powered this way could potentially float even higher, or potentially be built heavier with additional scientific instrumentation on board.”
Prof. Sara Seager speaks with New York Times reporter Dennis Overybye about the James Webb Telescope. Seager is part of a team that is planning to use the telescope to observe an exoplanet named Trappist-1e to determine if the planet has an atmosphere.
Wired reporter Reece Rogers spoke with MIT postdoctoral scholar Tansu Daylan about the winter solstice and the Earth’s relationship with the sun. “The solstices are defined with respect to the Earth-sun system, not necessarily the whole solar system,” says Daylan. “We attach a lot of meaning to it because the sun is so sacred for us, and its location on the celestial sphere, as a function of time throughout the year, is very important.”
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.
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.”
Forbes contributor Bruce Dorminey writes that a new study by MIT scientists finds that the surfaces of carbonaceous asteroids may be much more rocky than previously thought. “This news is important for planetary science because we need to sample asteroids to answer fundamental questions such as how the solar system formed and how life came to be on Earth, says postdoctoral fellow Saverio Cambioni.
Prof. Taylor Perron, a recipient of one of this year’s MacArthur fellowships, speaks with Callie Crossley of GBH’s Under the Radar about his work studying the mechanisms that shape landscapes on Earth and other planets. “We try to figure out how we can look at landscapes and read them, and try to figure out what happened in the past and also anticipate what might happen in the future,” says Perron of his work as a geomorphologist.
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.
Forbes contributor David Bressan writes that a new study co-authored by MIT researchers finds that images taken by the Perseverance rover show that Mars’ Jezero crater was once a lake. “The fine-grained clay and carbonate layers deposited in the fossil lake are capped by a diamict, a sedimentary rock consisting of a mix of large and small boulders,” writes Bressan. “Scientists think the boulders were picked up tens of miles upstream and deposited into the former lakebed by episodic flash floods, suggesting a catastrophic climate change in Mars' distant past.”