A strange kind of geometry governs how particles move inside matter. Now, for the first time, physicists have uncovered its ...

This article explores how our understanding of the universe has evolved—from the scale of everyday experience down to the ...

Dark matter has bewildered scientists for centuries. It makes up most of the universe’s matter, but it can’t be seen directly ...

In a new study, scientists have shown that chemical receptors that plants use to recognize nitrogen-fixing bacteria have ...

On Oct. 3, 1950, three Bell Labs scientists received a patent for a "three-electrode circuit element" that would usher in the ...

A hidden world of quantum metrologists ensure that everyday devices perform safely and correctly, but their work is never ...

Scientists reveal for the first time the atomic structure of liquid carbon, key to exoplanets and nuclear fusion.

Low nitrogen availability is the number one limitation to plant growth in most ecosystems. Plants in the bean family and other closely related families evolved a symbiotic relationship with bacteria ...

Discover the physics behind stamps sticking to envelopes, from fundamental forces to Van der Waals interactions, explained concisely.

EPFL physicists and their collaborators have directly observed and controlled a rare double-dome pattern of superconductivity in twisted trilayer ...

Determining the passage of time in our world of ticking clocks and oscillating pendulums is a simple case of counting the ...

For example, the atomic number of chlorine is 17. Every chlorine atom has 17 protons and 17 electrons. It has 17 positive charges and 17 negative charges, meaning that it is neutral overall. Atoms of ...