When quantum particles work together, they can produce signals far stronger than any one particle could generate alone. This ...

The theorized unseen structure of spacetime could also explain of the outstanding questions about the accelerating expansion ...

In this video, we break down the physics of asteroids, focusing on how a change in momentum affects their motion. From impacts to gravitational interactions, learn how these space rocks move and what ...

Exotic spin-dependent interactions represent a promising avenue for probing physics beyond the Standard Model. These interactions, hypothesised to be mediated by new light bosons, couple to the ...

Secondary particle tracks recorded during a proton collision inside the ATLAS detector, indicating the presence of a single Higgs boson in the event. Since the launch of the Large Hadron Collider, ...

Teppei Katori and Pierre Lasorak at Queen Mary University of London have studied data from the the T2K neutrino experiment in Japan to search for signs of single gamma-ray emission from neutrino ...

Protons accelerated almost to the speed of light can collide similarly to billiard balls. However, since protons are quantum particles, from measuring such collisions we can learn unobvious things ...

The demo, presented at NVIDIA’s event yesterday where they announced the new GTX 1080 Ti, covers a large area brimming with opportunity for physics-based interactions, a field of seemingly infinite ...

A quantum computer that can simulate interactions between fundamental particles has been unveiled by physicists in Austria. Four trapped ions were used to model the physics that describes the creation ...

Rochester Institute of Technology’s Emiliano Brini, assistant professor in the School of Chemistry and Materials Science, has received an award from the National Institutes of Health (NIH) to support ...