Facilities that make particles called B mesons may seem obscure, but they could help explain why there is more matter than ...

Members of the STAR collaboration, a group of physicists collecting and analyzing data from particle collisions at the ...

The Higgs boson self-coupling is a phenomenon where the Higgs interacts with itself, which can manifest in particle ...

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

Knowable Magazine reports that neutrinos may help explain the universe's missing antimatter, shedding light on matter-antimatter imbalance.

The prospective candidates of the GATE 2026 Physics (PH) exam must familiarise themselves with the GATE Physics syllabus. The comprehensive GATE 2026 Physics syllabus has been released by IIT Guwahati ...

By Mackenzie Devereux The Standard Model, depicting the fundamental building blocks of the universe, including top quarks. Courtesy of Cush via Wikimedia Commons Sitong An, a physicist at Carnegie ...

A recent Physical Review Letters study presents a new model for quark star merger ejecta that could resolve whether these ...

The key test passed by sPHENIX to prove it is ready to measure the properties of quark-gluon plasma is called a "standard candle" in particle physics. This isn't to be confused with Type 1a supernovas ...

After a decade of construction, the new-and-improved super Pioneering High Energy Nuclear Interaction eXperiment (sPHENIX) is officially ready for science as it passes a key “standard candle” ...

Probing ever deeper into the inner world of the atom, nuclear physicists have uncovered an increasingly baffling collection of tiny particles. Besides the familiar neutrons, electrons and protons, ...