Why matter dominates over antimatter in our universe has long been a major cosmic mystery to physicists. A new finding by the ...

A graduate student accidentally created a blend of oil, water and nickel particles that formed an unexpected shape.

The LHCb experiment at CERN has uncovered a fundamental asymmetry in the behavior of baryons. During the Moriond Conference in Italy, the LHCb collaboration at CERN announced that a new ...

Substantial contributions to the 2026 update of the European Strategy for Particle Physics set the stage for discussions that will define the next ...

The axion quasiparticle forms when the interaction between the electric field and magnetization oscillates in a specific ...

"We don't know the frequency, so we need to keep tuning and trying different ones, like searching for a good radio station ...

A long-elusive, hypothetical subatomic particle called the axion can be simulated and potentially detected in a type of thin material.

Neutrinos, the mysterious and nearly massless particles that barely interact with anything, are revealing new secrets through the KATRIN experiment. Using tritium decay and advanced spectrometry, ...

New data establish an upper limit of 0.45 eV/c2 (equivalent to 8 x 10-37 kilograms) for the neutrino mass. KATRIN measures neutrino mass in the laboratory using a model-independent method.

Neutrinos are among the most enigmatic particles in the universe. They are omnipresent yet interact extremely rarely with ...

A novel paper is widening understanding of how species interact within ecosystems via the so-called 'Internet of Nature.' The paper reveals that species not only exchange matter and energy but also ...