The dependable Hubble Space Telescope has been in orbit for more than 35 years now. It's at a point where it can reexamine objects it observed decades ago and can uncover changes that have transpired over human timescales. This is an impressive feat for a telescope that was projected to last only 15 years.
NASA's MSL Curiosity rover has found some more pieces of the puzzle that is Mars' ancient habitability. Evidence that the planet was once warm, wet, and habitable is growing, and now Curiosity has detected some new organic molecules. The rover found 21 organic compounds in rocks in Gale Crater with its Sample Analysis at Mars (SAM) instrument. Seven of them were detected for the first time.
When the first gravitational wave (GW) was detected back in 2015, scientists said they had opened a new window into the Universe. While most of astronomy is based on detecting electromagnetic energy, GW are different. They're ripples in spacetime predicted by Einstein.
There is a place at the centre of our Galaxy where the rules of physics are pushed to their limits. Squeezed into a region smaller than our Solar System sits Sagittarius A*, a supermassive black hole four million times the mass of our Sun. The space around it is a churning and chaotic environment where stars orbit at breakneck speeds, gas swirls through intense gravitational fields, and anything straying too close risks being torn apart and consumed. Yet for all its violence, one of the biggest mysteries here has been surprisingly simple; what on earth (pardon the pun) is feeding it?
Imagine a world where the Sun never rises and never sets! It feels like that here in the UK sometimes with what feels like a never-ending cover of cloud. On one side of a world like this, a permanent blazing day whilst on the other, an endless frozen night. No seasons, no dawn, no dusk just an eternal, pitiless divide. For more than three quarters of the stars in our Galaxy, this is the reality facing their planets. And now, for the first time, astronomers have mapped the climate of two such worlds in extraordinary detail.
One of the most dramatic and memorable scenes from Interstellar comes from Miller’s planet - and if you don’t want a spoiler for an 11 year old movie, feel free to skip to the next paragraph. When the crew arrives on this potential new home for humanity, they are faced with a literal 1.2 km high wall of water bearing down on them quickly. It’s a great representation of how waves on other planets can act differently than on Earth. Admittedly, according to Kip Thorne, the scientific advisor for that movie, those waves are actually caused by the planet’s proximity to a local black hole rather than the wind that forms our waves here.
New missions mean new capabilities - and one particularly interesting new mission is finally up and running. Data is starting to come in from SPHEREx, the medium-class surveyor that is mapping the entire sky every six months. A paper based on some of that early data was recently published in The Astrophysical Journal, mapping ice and compounds called Polycyclic Aromatic Hydrocarbons (PAHs) throughout some interesting regions of our Milky Way.
Liquid water is the primary ingredient for life as far as we can determine. The search for habitable exoplanets focuses on this fact. Exoplanet scientists sift through data trying to determine which worlds might be in their stars' habitable zones, a zone with just the right amount of star energy to maintain liquid surface water.
Human history is littered with expired civilizations, and scholars and archaeologists have made a determined effort to understand why and how civilizations collapse. They've found that symptoms like a growing wealth gap and distrust of the elites are precursors to civilizational collapse. But what about global technological civilizations like the one we live in now? How long can they last? What causes their collapse? How can they recover?
As we make our way through the latest solar maximum period, scholars and scientists are looking to similar events in the past to learn more about ancient bouts of solar activity. In particular, they want to know more about solar proton events (SPEs). These outbursts of high-energy particles get triggered by flares and coronal mass ejections.
The search for life beyond Earth has traditionally focused on exoplanets orbiting Sun-like stars, which is a G-type star. However, low-mass stars, which are designated as K-type and M-type stars, have rapidly become a target for astrobiology, primarily due to their much longer lifetimes. This also means the habitable zone (HZ), which is the distance from a star where liquid water could exist, is much smaller than our solar system’s HZ, and is referred to as the liquid water habitable zone (LW-HZ). In contrast, another type of HZ that involves a star’s ultraviolet (UV) radiation potentially enabling life-harboring conditions is known as UV-HZ.
Scientists have been debating for decades whether Mars once held a vast ocean covering a large part of its northern face. To prove the idea, they’ve been looking for a “bathtub ring” - a distinct, level shoreline that shows where water once stood. But, despite years of looking, they’ve only been able to find a very distorted potential shoreline whose height deviates by several kilometers - not exactly great evidence of a stable water level. But, according to a new paper in Nature from Abdallah Zaki and Michael Lamb of CalTech, what scientists should have been looking for wasn’t a bathtub ring, but a continental shelf.
So far, America has remained ahead in the new space race. But its biggest rival is making continual steps to catch up. China announced another step in that direction with the unveiling of its first ever reusable five-meter-wide composite propulsion module, announced in a press release on April 11th.
The Universe looks mighty impressive when visualized with X-ray instruments. More importantly, X-ray images provide vital scientific insights by revealing features in the Universe that are not observable in visible light. The same is true of our Solar System, which has been difficult because of the challenges of separating local emissions from the rest of the Milky Way galaxy. In a recent study, a team from the Max Planck Institute for Extraterrestrial Physics (MPE) managed, for the first time, to disentangle the X-ray glow of our Solar System from deep space.
Mars rovers have spearheaded the exploration of the planet over the last 20 years. MSL Curiosity and Perseverance are awe-inspiring machines, and Spirit and Opportunity were similarly impressive. Collectively, they've greatly improved our understanding of Mars and its ancient climate and shed light on its potential ancient habitability.
On Friday, April 10, 2026 at 5:07 p.m. PDT (02:07 p.m. EDT), the first astronauts to travel to the Moon in more than fifty years made it back to Earth when their Orion capsule (Integrity) splashed down in the Pacific Ocean off the coast of San Diego. In addition to being a historic accomplishment and a major step towards returning astronauts to the Moon for the first time since the Apollo Era, the Artemis II flight set a new record for distance traveled by a crewed spacecraft.
A pair of dwarf galaxies in the giant Virgo Cluster show what can happen when these stellar cities interact. Scientists at the University of Michigan focused the James Webb Space Telescope (JWST) onto the galaxies NGC 4486B and UCD736 and found each of them sporting "overmassive" black holes at or near their hearts. Those supermassive black holes comprise a large fraction of each galaxy's mass.
Some of the most scientifically important astronomical objects are the ones that push the boundaries of definitions. These objects can exist in the grey areas between competing definitions. They motivate astronomers to develop a deeper and more comprehensive understanding of Nature. One of these important dividing lines places planets on one side and stars on the other.
To say NASA has been undergoing some massive administrative changes lately is a huge understatement. One of the more concerning ones, according to a new paper at the 57th Lunar and Planetary Science Conference by Ari Koeppel and Casey Dreier of the Planetary Society, is the trend towards the Silicon Valley mindset of “move fast and break things” - which they argue doesn’t work very well when it comes to producing valuable science.
Engineers love a good practical challenge, especially when it comes to spaceflight. But there’s one particular challenge facing the crewed missions of the near future that scares mission planners above almost all others - fire. For decades, we’ve relied on a NASA test known as NASA-STD-6001B to screen material flammability for flight. But space is much more complicated than an Earth-bound test provides for. A new paper from researchers at NASA’s Glenn Research Center and Johnson Space Center and Case Western Reserve University details a planned mission to test the flammability of materials on the Moon’s surface - where they expect flame to act much differently than it does here on Earth.
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