A new study in Nature Physics has turned an old problem on its head by reporting a way to use the noisy interactions between ...

Inside high-energy proton collisions, quarks and gluons briefly form a dense, boiling state before cooling into ordinary ...

Antiferromagnetic (AF) materials are made up of atoms or molecules with atomic spins that align in antiparallel directions of ...

High energy proton collisions can be pictured as a roiling sea of quarks and gluons, including short lived virtual particles. At first glance, this ...

For nearly two centuries, textbooks blamed icy spills on pressure and friction, but new simulations tell another story. The team shows that ice can remain slippery near minus 40 degrees Fahrenheit ...

Through a recent notice, the Undergraduate Medical Education Board (UGMEB) of the National Medical Commission (NMC) has ...

For years, we’ve believed that the universe is a vast, uniform expanse, with the same properties stretching across the cosmos. But what if that’s not the case? A surprising new discovery suggests that ...

Anthracene—a hydrocarbon known for its strong luminescence and high photo-reactivity—has long been considered one of the most iconic and widely ...

Artificial giant atoms exhibit decoherence-free behavior, but what happens if you arrange these giant atoms in groups ...

In a Columbia University laboratory in New York, physicist Sebastian Will and his team have reached one of ultracold physics’ ...

Far from the Sun, Uranus sits tipped on its side, carrying a magnetic system unlike any other planet’s. Its equator tilts about 97.