
Move fast enough and the entire universe compresses into a searing, blueshifted cone of light aimed at your face. How relativistic aberration and the Doppler effect warp your view of the cosmos as you approach lightspeed.

Move fast enough and the entire universe compresses into a searing, blueshifted cone of light aimed at your face. How relativistic aberration and the Doppler effect warp your view of the cosmos as you approach lightspeed.

After chasing a small asteroid across a billion kilometres of space, China's Tianwen-2 probe has finally caught up, closing to within twenty kilometres of its target and beginning detailed scientific study. What it uncovers next could help settle a genuinely intriguing question, whether this quiet companion of Earth is simply another asteroid, or a long lost piece of the Moon itself.

Astronomers using the U.S. National Science Foundation Very Large Array (NSF VLA) have detected an extraordinary burst of radio light from a rare cosmic event in which an intermediate-mass black hole tears apart a star, revealing what appears to be the off-axis afterglow of a powerful jet.

Astronomers have measured the ages of over a hundred and fifty thousand ancient stars scattered across our Galaxy, and found the oldest of them is just the age it should be if the standard picture of the universe is correct. That simple agreement quietly undermines one of the leading attempts to explain a stubborn mystery, and hints that the real answer to the Hubble tension may lie somewhere else entirely.

AI is a powerful tool in scientific research. It can be used to find patterns in vast quantities of data. But it also generates false positives, as most of us know. This is an "Achilles Heel" according to researchers who tested a neural network's ability to detect life.

Engineers have just upgraded the software running a spacecraft 140 million kilometres away, then held their breath through two full reboots with an eight minute delay on every command. The prize for getting it right is a close up look at an asteroid humanity has already changed forever, and the answer to a question nobody has been able to answer since 2022, what did we actually do to it?

There are parts of the universe that are extremely hard to see, even for our most advanced telescopes. Gas and dust don’t emit any light, and are only visible by the light that they happen to block from stars and galaxies. Magnetic fields are even harder since regular light typically passes right through them. However, according to a new paper available in pre-print on arXiv, by Manisha Caleb of the University of Sydney and their co-authors, we’re currently commissioning a potentially game-changing new tool that could use a particularly violent astronomical phenomenon to provide new insight into these hard to see places.