Researchers at the Hebrew University of Jerusalem discovered that the magnetic component of light plays a direct role in the ...

Explore the revolutionary findings on why ice is slippery, revealing the role of electrostatic forces in creating a ...

We’re used to seeing ever greater particle accelerators — colossal machines sprawling across landscapes, built to reveal the ...

New multiscale simulations help crack long-standing mysteries behind the enormous radio arcs generated when galaxy clusters ...

Deep in the heart of the matter, some numbers don't add up. For example, while protons and neutrons are made of quarks, ...

This engine doesn’t power anything in particular except our deeper understanding of thermodynamics as well microscopic ...

The Wave Engineering for eXtreme and Intelligent maTErials (We-Xite) lab, led by engineering assistant professor Osama R.

In the dense environment of the early universe, dark matter particles would collide with, and annihilate, each other, releasing energy in the process. This energy could heat the hydrogen and helium ...

String theory unifies all the forces of nature. Forces that seem very different, such as gravity and electricity, are deeply ...

A doctoral student travels to Washington to explain the enigma of neutrinos, particles that are as strange as they are ...

The story opens with a scene both familiar and deceptively simple: physicists once again interrogating the fabric of reality, ...

I keep coming back to a strange idea: what if everything we know about quantum physics is already encoded inside a single atom? Not in a mystical sense, but in the very real way that one tiny system ...