An extremely rare collision of massive subatomic particles could reveal the nuts and bolts of how the subatomic particles called Higgs bosons impart mass to other particles. The Higgs boson particle, ...

Restricting a strange class of particles known as anyons to one dimension could force them into adopting one of two new forms, models suggest, hinting at new fundamental interactions in particle ...

The Heisenberg uncertainty principle places severe constraints on the subatomic world. To illustrate, for particles called bosons, the principle dictates that bosons either condense to form a ...

Eric Mack has been a CNET contributor since 2011. Eric and his family live 100% energy and water independent on his off-grid compound in the New Mexico desert. Eric uses his passion for writing about ...

Half a century ago, six physicists proposed the idea of a new subatomic particle whose existence would help explain the masses of elementary particles. Ever since then, the hunt has been on to find it ...

In fact, the first tantalizing evidence is already in and we take a look. The discovery of the Higgs boson ten years ago in the Large Hadron Collider was the culmination of decades of work and the ...

A chance encounter at a July 4 picnic made the latest development in particle physics seem much more comprehensible. Here's what I learned. So I was at a July 4 picnic on Wednesday where one of the ...

The ATLAS collaboration, the large research consortium involved in analyzing data collected by the ATLAS particle collider at CERN, recently observed the electroweak production of two Z bosons and two ...

Physicists at the Large Hadron Collider, a particle accelerator near Geneva, Switzerland, report that they're hot on the trail of an elusive elementary particle known as the Higgs boson. It's only a ...

A new twist on a classic experiment could show that pairs of electrons behave as bosons, despite the fact that single electrons are fermions. Peter Samuelsson and Markus Büttiker of the University of ...

Image: Phase diagram showing the destruction of superconductivity: 1) The yellow region represents the ordered phase in which all the electron pairs share the same phase (all arrows pointing up), 2) ...