ALICE collaboration identifies three-phase process that allows particles to form despite energetically unfavourable ...

Inside high-energy proton collisions, quarks and gluons briefly form a dense, boiling state before cooling into ordinary ...

In this last part of our series on recently digitized books from the Wenner Collection, we are focusing on works that ...

One of the great successes of 20th-century physics was the quantum mechanical description of solids. This allowed scientists to understand for the first time how and why certain materials conduct ...

The most direct probe of λ3 comes from Higgs-boson pair production (HH). HH production happens most often by the fusion of ...

Libby Rosemeier, a former George Stevens Academy student in the Twinkie experiment class, and Roger Bennatti, the now-retired ...

Our Sun’s outer atmosphere, the corona, is millions of degrees hotter than it should be, and no one knows why.

In the past year, two separate experiments in two different materials captured the same confounding scenario: the coexistence of superconductivity and magnetism. Scientists had assumed that these two ...

Proton collisions at the LHC appear wildly chaotic, but new data reveal a surprising underlying order. The findings confirm that a basic rule of quantum mechanics holds true even in extreme particle ...

Real scientific efforts at universal communication have also involved mathematics and numbers. The covers of the Golden ...

Remarkably, these experiments revealed that molybdenum ditelluride can exhibit superconductivity and magnetism at the same ...

Researchers showed that dark matter can decouple while ultrarelativistic–or very hot–and still have time to cool before ...