That fleeting window is precisely what makes Cu‑64 so attractive for medicine. It lasts long enough to travel through the ...

In the quiet corridors of UCLA Health, researchers uncovered a surprising aid in the fight against obesity, not a new diet, ...

Known as the Richat Structure, this 50-kilometre-wide geological wonder has once again fascinated scientists and storytellers ...

What if the secret to stronger, cavity-proof teeth was hiding in your hair? It sounds wild, but scientists from King’s College London may have found a way to use keratin, the same protein that makes ...

Quantum oscillations are like the rhythmic dance of electrons in a metal when exposed to a magnetic field. By applying a magnetic field, researchers can change the speed with which those electron ...

Drag and zoom to explore this new image of the Galactic Plane. Credit: ICRAR In a dazzling leap for cosmic cartography, astronomers from the International Center for Radio Astronomy Research (ICRAR) ...

When powerful infrared light pulses hit a solid material, they can trigger ultra-fast effects, so fast they happen in attoseconds (a billionth of a billionth of a second). These effects enable ...

The two Yunxian skulls used in the study were highly distorted, but Xijun Ni and his colleagues were able to reconstruct them using 3D modelling. ©Mr. Guanghui Zhao In the quiet bends of the Han River ...

A diamond slice of a South African diamond showing various inclusion-rich zones and laser ablation pits from microanalytical sampling. Credit Yaakov Weiss The chemical mood of Earth’s mantle, its ...

We all know ice is cold, slippery, and great in lemonade. But here’s a twist: it’s also full of surprises. Even though water molecules are polar (they have tiny electrical charges), frozen water, your ...

Imagine the brain’s blood vessels as a bustling highway system, twisting, turning, and pulsing with life. Now picture a traffic jam in one of the most critical intersections: that’s what happens in ...

Graphic illustrating MIT’s new platform for manipulating light on the nanoscale. Thin structures represent patterned chromium sulfide bromide, a layered quantum material with different optical ...