Scientists discovered “magic” top quarks at CERN’s Large Hadron Collider, demonstrating how the facility has evolved to support quantum computing research. Researchers at ATLAS observed ...

The particle collider smashes together atomic nuclei—comprised of particles called protons and neutrons—to break them into their smaller components. Tiffany Bowman / Brookhaven National Laboratory For ...

Abstract: As the detection channel of an inductive particle sensor increases, it is inevitable that multiple particles will pass through the sensor simultaneously. However, the movement of multiple ...

The dynamic fluctuations of energy fields in the quantum vacuum that are associated with the fleeting emergence of spin-aligned quark/antiquark pairs.Valerie A. Lentz/Brookhaven National Laboratory US ...

A window into how visible matter emerges from the "nothing" of vacuum has been opened by physicists at the Brookhaven National Laboratory’s Relativistic Heavy Ion Collider (RHIC) in New York. The ...

Quantum physics paints a strange picture of the world, one filled with spooky connections, unsettling uncertainties and—perhaps oddest of all—particles that spontaneously spring into being from the ...

Fundamental particles called quarks can be created in quantum-correlated pairs. These correlations can be passed on to larger particles that form from the quarks. The strong force differs from others ...

Scientists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory have uncovered experimental evidence that particles of matter emerging from energetic subatomic smashups retain a key ...