LHCb experiment finds hints of physics beyond standard model

Physicists on the LHCb experiment at CERN's Large Hadron Collider have detected the Xicc+ particle, a baryon containing two charm quarks and one down quark. This heavier analogue of the proton resolves a 20-year-old mystery from a previous experiment. The discovery, confirmed at over 7 sigma significance, highlights upgrades to the LHCb detector.

May 19, 2026 An Ruwaito ta hanyar AI

An international team has shown that a long-standing discrepancy in the muon's magnetic behavior stemmed from earlier calculation limits rather than unknown physics. The work supports the Standard Model and removes one major hint of a possible fifth force of nature.

Researchers using the DAMPE space telescope have identified a shared spectral softening in cosmic rays across multiple particle types. The pattern appears at a rigidity of about 15 teraelectron-volts for protons through iron nuclei. This finding, published in Nature, offers new insight into how these high-energy particles behave in the galaxy.

May 03, 2026 An Ruwaito ta hanyar AI

An international team of physicists has found that quantum collapse models, potentially linked to gravity, introduce a minuscule uncertainty in time itself. This sets a fundamental limit on clock precision, though far below current detection levels. The research, published in Physical Review Research, explores ties between quantum mechanics and gravity.

Physicists have shown that the key signatures of string theory can arise naturally from a handful of simple rules about particle behavior at extreme energies. Researchers from Caltech, New York University, and a Barcelona institute reached this result using a bootstrap approach that starts with minimal assumptions rather than presupposing strings. The work has been accepted for publication in Physical Review Letters.

March 21, 2026 An Ruwaito ta hanyar AI

CERN researchers are set to transport around 100 antiprotons by truck around the campus near Geneva, Switzerland, on Tuesday. This marks the first demonstration of a planned antimatter delivery service to labs across Europe. The experiment, known as STEP, aims to enable precision measurements away from the noisy antimatter factory.