IFLScience traveled to CERN to get an exclusive insight into the crucial theory of particle physics, its limitations, and ...

Physicists at CERN’s Large Hadron Collider (LHC) have made a groundbreaking discovery that could reshape our understanding of ...

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

To learn more about the nature of matter, energy, space, and time, physicists smash high-energy particles together in large ...

Scientists from the KATRIN experiment have achieved the most precise upper limit ever recorded for the mass of the mysterious neutrino – clocking in at less than 0.45 electron volts. This breakthrough ...

Meanwhile, according to the Standard Model of particle physics, the number of CP-invariance violations is too small to explain such an amount of standard matter in the Universe. Prior to this ...

In just the first 259 days of data collection, KATRIN, a beta-decay-based detector in Germany, has set the smallest upper ...

Particle physics is the study of the elementary building blocks of matter and radiation and their interaction. The fundamental particles are summarised by the standard model. This includes leptons ...

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.

Despite being a key reason why we're here in the first place, the amount of CP violation predicted by the Standard Model of particle physics is far too small to explain the abundance of matter in ...

The collisions may also produce entirely new particles not predicted by the standard model, the prevailing ... advanced detectors for future particle physics experiments, says co-author Si Xie ...