A new particle detector has passed a crucial test, demonstrating it's ready to start investigating quark-gluon plasma, the ...

A new and powerful particle detector just passed a critical test in its goal to decipher the ingredients of the early ...

A decade in the making, this upgraded detector will explore the properties of the quark-gluon plasma that formed a millionth ...

Scientists have retreated to deep beneath the French Alps to broaden the hunt for dark matter particles that could be "WIMPier than WIMPS." ...

The sPHENIX detector at Brookhaven passes its first big test, proving ready to study quark-gluon plasma born just after the ...

In a recent paper for the Journal of High Energy Physics, researchers with the sPHENIX Collaboration announced that it had ...

Gaseous detectors have long been an integral component of particle physics, providing essential data for tracking charged particles and elucidating complex event topologies in high-energy experiments.

In 2024, the T2K Collaboration started to collect new neutrino data following several upgrades to the experiment that included new types of detectors. One of these, called SuperFGD, has a mass of ...

The milestone allows sPHENIX to study how quark gluon plasma evolves and behaves. By tracing the particles from collisions, ...

A relatively small detector caught neutrinos from a nuclear reactor using a technique known as coherent scattering ...

KM3NeT is just such a detector array. It's submerged 3,450 meters (11,320 feet) under the surface of the ocean, a depth at which no sunlight can penetrate. In such complete darkness, neutrino events ...