In the era of precision cosmology, research often means big science: large observatories, highly complex instruments, ...

A neglected force produced by neutrinos and other particles helps atomic physics measurements align with predictions of the ...

After a 10-year effort, physicists got a value for “Big G” that does not settle the debate over one of nature’s hardest ...

The concept of the vacuum, initially thought to be empty, is actually steeped in complex physics. From Aristotle's horror vacui to quantum field fluctuations, this piece explores the transition from ...

On a breezy afternoon last autumn in Cambridge, Mass., in a laboratory thrumming with the huff-whish-huff sound of ...

Einstein's special relativity emerged independently, challenging misconceptions about the Michelson-Morley experiment's ...

GBAR (Gravitational Behaviour of Anti hydrogen at Rest) experiment. For the first time, scientists have transported ...

By feeding students the mysteries and wonder of modern physics, Don Lincoln hopes to ‘blow their minds.’ ...

Nearly every object we interact with in our lives has a mass, but where does this mass come from? Modern physics says matter ...

Two of the forefathers of quantum theory, Albert Einstein and Niels Bohr, had a famous argument over whether light is a wave ...

For decades, scientists have tried and failed to explain how the force that binds the heart of atoms together really works.

Researchers have made some unexpected readings of mysterious particles called muons, which may make us reexamine the Standard Model in physics. Hosted by: Stefan Chin Huge thanks go to the following ...