Scientists have successfully "frozen" light, demonstrating that it can exist as a supersolid—a rare state of matter combining ...

New research reveals light can behave as a supersolid, paving the way for advancements in quantum computing and optical ...

For the first time, they reported Bose-Einstein condensation (BEC) of a two-magnon bound state in a magnetic material. Until ...

Using the Multi-frequency High Field Electron Spin Resonance Spectrometer at the Steady-State High Magnetic Field Facility ...

With properties of a superfluid but with a crystalline structure, supersolids have previously only been observed in ultracold ...

FOLLOWING a suggestion of Prof. Max Born and Dr. H. S. Green, we have extended their theory of ultimate particles, recently published in Nature 1, to the case of spin ½.

So far as we know, the idea of a quantised spinning of the electron was put forward for the first time by A. K. Compton (Journ. Frankl. Inst., Aug. 1921, p. 145), who pointed out the possible ...

The ATLAS collaboration at the Large Hadron Collider observed the rare production of a Z boson alongside two other vector bosons (VVZ) with a statistical significance of 6.4 standard deviations.

Muons are shown by red lines, the electron by a green line, and “missing energy” from the neutrino by a dashed white line. (Image: ATLAS/CERN) “The production of three vector bosons is a very rare ...

“This means that they have a very low probability of interacting.” The problem lies with the W boson. W bosons are extremely massive: about 80 times more massive than a proton. Because of their weight ...

Another unknown is where the Higgs mass originates from. If it results from the interaction with the Higgs field, it should be possible to observe the Higgs boson “self-interaction”, with the ...