Astronomy

A new detection tool can accurately spot deepfake videos featuring any AI manipulation, from face swaps to completely synthetic AI-generated content

A strange shift in Earth's rotation is making our days milliseconds shorter — and scientists are racing to understand why.

A SpaceX Falcon 9 rocket launched 28 Starlink satellites from Florida's Space Coast early Monday morning (Aug. 4), then came back to Earth for a landing on a ship at sea.

This image from the James Webb Space Telescope revisits one of the most iconic regions of the sky, the Hubble Ultra Deep Field. The result is a detailed view of thousands of distant galaxies, some dating back to the earliest periods of cosmic history.

If you have any doubts about the objectives of the program, just check out their logo: a stylized crescent moon with two footprints in the middle.

In the northern hemisphere, we're getting on to enjoying summer time which traditionally includes vacationing. Typically, vacations are a time to pause from work and remember life's possibilities beyond work. Now, perhaps you, the vacationer, want to rekindle a brief fling you had with science or maybe begin a new science tryst. Ersilia Vaudo's book "The Story of Astrophysics in Five Revolutions" could be just the impetus necessary for such a diversion.

The UK-based not-for-profit company Initiative for Interstellar Studies (i4is) has announced the winners of the Project Hyperion Design Competition, a global challenge that called upon interdisciplinary teams to envision generation ships designed for a 250-year journey to Proxima b. The teams designed habitats of such a spacecraft that would allow a society to sustain itself and flourish in a highly resource-constrained environment.

The United States and China aren’t the only powerful, wealthy nations in the world, and they’re certainly not the only nations active in space.

If you want to get to the moon, you need to spend an enormous amount of resources developing, creating, testing, and deploying a variety of spacecraft and technologies.

Simulating extraterrestrial environments on Earth has always been a challenge. Our planet has a pleasant atmosphere, reasonable temperatures, and a moderate amount of gravity, unlike the rest of the solar system. Or maybe that’s just because we think that way because we adapted to how it is here as we evolved here. In either case, the physical environment here makes it difficult for us to set up test environments that can accurately test probes going to other parts of the solar system. Many times, it involves vacuum chambers, air conditioners and heaters pumping hot and cold air into them, and soil simulant - lots and lots of soil simulant. But, according to a new paper from researchers at the University of Wisconsin-Madison, we’ve been neglecting one important aspect of these tests, and it might be the reason Spirit eventually got permanently stuck on Mars - sand is affected by gravity too.

It’s a tantalizing prospect. Since 2017, three interstellar objects have been spotted passing through our solar system: 1I/ʻOumuamua, 2I/Borisov… and just this month, 3I/ATLAS. Discovered on July 1st by the Asteroid Terrestrial-impact Last Alert Survey, 3I/ATLAS is zipping through the inner solar system in the last half of 2025. Certainly, all assets on the ground and in space will be turned towards 3I/ATLAS over the next few frenzied months, to glean what we can… but what would 3I/ATLAS look like up close? Can we even consider chasing down such a speedy visitor?

I don’t think space or lunar tourism is going to be the big draw that transforms the moon into something unrecognizable.

Scientists have achieved a groundbreaking milestone by creating the first detailed map of magnetic fields in one of the most chaotic regions of space, the turbulent center of our own Milky Way. Using innovative techniques to track microscopic dust grains, researchers have finally decoded the invisible forces that govern star formation in this extreme galactic environment. Their discoveries not only solve a 40 year mystery surrounding strange high speed electron streams racing through space, but also reveal how magnetic fields, stellar winds, and gas clouds perform an intricate dance that shape our Galaxy.

Science is driven by our desire to understand things. In some cases, where it requires significant effort and investment to develop systems that can understand new things, science benefits from a game plan that the community of researchers focused on a particular niche can rally around, even if they don’t necessarily agree on the details. In astronomy and space science, those game plans typically take the form of Decadal Surveys, produced by the National Academies to define the path forward in a specialization or sub-field. However, there are almost always follow-up reports that break down the suggestions from the Decadal Surveys into actionable plans that experts in the field then spend the next ten years executing on. One of those “tactical” plans was recently released on arXiv by the two lead scientists of NASA’s Exoplanet Exploration Program (ExEP), though it was listed as Rev H and released at least internally back in January 2025. In it, Drs. Karl Stapelfeldt and Eric Mamajek lay out 17 scientific goals that ExEP plans to work on over the next 3-5 years.

Life arose early in Earth's history. Was this an inevitable process, or an extremely unlikely event that happened early on, and what does this tell us about the likelihood of life on other worlds? In a new paper, a researcher calculated the variables that went into the formation of life and found that a spontaneous emergence is theoretically feasible, but extremely unlikely. Instead, he suggests that there could be protection mechanisms or unknown self-organising principles that got life going.

If you've ever dreamed of traveling through space as an explorer, you know there'll be some serious "downside dangers". One of them is cosmic rays. These high-speed particles slam through anything, including our bodies, damaging DNA and ripping molecules apart. As dangerous as they sound to unprotected spacefarers, they could actually help microscopic life survive hiding under the icy surfaces of places like Europa or Enceladus.

On the slopes of Martian mountains and craters clings what appears to be flowing honey, coated in dust and frozen in time. In reality, these features are incredibly slow-moving glaciers, and their contents were once thought to be mostly rock enveloped in some ice.

How can identifying land on exoplanets help scientists better understand whether an exoplanet could harbor life? This is what a recently submitted study hopes to address as a team of researchers investigated how identifying land on exoplanets could help dispel waterworld false positives, which occur when the data indicates an exoplanet contains deep oceans (approximately 50 Earth oceans), hence the name “waterworld”. This study has the potential to help scientists develop more efficient methods for classifying exoplanets and their compositions, specifically regarding whether they contain life as we know it, or even as we don’t know it.

If humans are planning to live off-world and colonise planets like Mars, that includes having children. But deep space and the surface of Mars aren't Earth, and there are several hazards that a gestating foetus will face, mainly microgravity and galactic cosmic rays. In a new paper, a researcher breaks down pregnancy into 10 sequential stages, evaluating what the implications of those conditions would be at each step. The author suggests that radiation would be the bigger risk.

Imagine if every time you turned on your phone, it accidentally jammed radio telescopes trying to detect alien signals. That's essentially what's happening as thousands of internet satellites flood Earth's orbit, creating electronic noise that's drowning out the whispers from black holes, distant galaxies, and the Big Bang itself. A massive new study reveals that our quest to connect every region of the planet is accidentally sabotaging our ability to answer the biggest questions in science and the problem is getting worse with every satellite launch.