Using single-atom-resolved microscopy, ultracold quantum gases composed of two types of atoms reveal distinctly different spatial correlations — the bosons on the left exhibit bunching, while the ...

Physicists captured the first images of individual atoms freely interacting in space. The pictures reveal correlations among the 'free-range' particles that until now were predicted but never directly ...

Using single-atom-resolved microscopy, ultracold quantum gases composed of two types of atoms reveal distinctly different spatial correlations — the bosons on the left exhibit bunching, while the ...

"Hearst Magazines and Yahoo may earn commission or revenue on some items through these links." Fundamental particles fall within two camps—fermions or bosons—but a new study suggests that hypothetical ...

Secondary particle tracks recorded during a proton collision inside the ATLAS detector, indicating the presence of a single Higgs boson in the event.IFJ PAN / CERN Scientists believe that interactions ...

Information can travel faster than individual particles in systems made up of interacting bosons Figure 1: Conceptual illustration of the Higgs boson (orange, top and bottom) being produced by ...

Recent theoretical advancements have enhanced the understanding of the Higgs boson’s properties, focusing on its cross-section during gluon-gluon collisions. This research highlights the relevance of ...

The Higgs boson (blue) may be created by the interaction of gluons (yellow) during proton collisions. Protons consist of two up quarks (red) and one down quark (purple), bound by gluons so strongly ...

A boson sampler that uses atoms rather than photons has been developed by researchers in the US. The team used its system to determine a complex quantum state more accurately than would be practicable ...

Last week, physicists working with the Large Hadron Collider (LHC) particle-smasher at CERN, in Europe, reported that they had detected a Higgs boson decaying into a Z boson particle and a photon.