A research team led by Rice University physicist Frank Geurts has successfully measured the temperature of quark-gluon plasma ...

In this video, we explore the fundamental forces of nature and their interactions with particles, structured as follows: 0:00 ...

Physicists are eyeing charged gravitinos—ultra-heavy, stable particles from supergravity theory—as possible Dark Matter candidates. Unlike axions or WIMPs, these particles carry electric charge but ...

What makes the journey fascinating is how each level of zoom reveals new rules. Biology gives way to chemistry, chemistry gives way to physics, and eventually physics reaches a quantum realm full of ...

Dark matter remains one of the biggest mysteries in fundamental physics. Many theoretical proposals (axions, WIMPs) and 40 years of extensive experimental searches have failed to provide any ...

Forget about turtles; for all practical purposes, it’s really particles all the way down. Consider the seemingly simple matter of their size, the very thing that makes them so alien. We’re typically ...

Scientists at CERN’s ATLAS experiment have uncovered compelling evidence of Higgs bosons decaying into muons, an incredibly rare event that could deepen our understanding of how particles acquire mass ...

The particles that are in an atom: protons, neutrons and electrons The particles that are in protons and neutrons: quarks The four fundamental forces: gravity, electromagnetism, the strong force and ...

ABSTRACT: The masses of the fundamental fermions are fit using properties of the minimal Higgs sector of the standard model and also using insights from an anomaly-free quantum field theory (QFT) with ...