Neutrinos can travel through space at a speed similar to that of light, carry non-zero mass, and lack any charge.

Scientists have now mapped the forces acting inside a proton, showing in unprecedented detail how quarks -- the tiny particles within -- respond when hit by high-energy photons. The international team ...

Quantum field theory's vacuum concept challenges classical views, revealing a metastable state that influences cosmic ...

Scientists have now mapped the forces acting inside a proton, showing in unprecedented detail how quarks—the tiny particles ...

Particles in high-energy nuclear collisions move in a way that follows a pattern known as Lévy walks, a motion found across ...

The agreement between Russia and the European Organization for Nuclear Research on scientific-technical cooperation in the area of high-energy physics was terminated on December 1, 2024 ...

Black holes may leak more energy to their surroundings than previously suspected — and the faster these voids spin, the more ...

Scientists have detected the most energetic neutrino ever observed using a deep-sea telescope. The discovery could provide ...

Neutrinos lie at the frontier of scientific unknowns about the universe. However, there’s a problem—neutrinos also like to ...

A team of engineers and material scientists at the University of Colorado Boulder seems to have defied the basic law of thermal physics. They have developed a new thermophotovoltaic (TPV) device that ...

In the realm of high energy physics, the integration of resistive elements into gaseous detectors has marked a significant milestone in enhancing ...

University of Tennessee, Knoxville, Assistant Professor Tova Holmes, in the College of Arts and Sciences, has received a ...