Discovered at CERN’s Large Hadron Collider (LHC) in 2012, the elusive Higgs boson particle has been at the centre stage for ...

Since the launch of the Large Hadron Collider, researchers have been studying Higgs bosons and searching for signs of physics ...

Since the launch of the Large Hadron Collider, there has been ongoing research there into Higgs bosons and a search for traces of physics beyond the existing model of elementary particles. Scientists ...

A team of researchers has produced vortices within a supersolid, confirming superfluid behavior within this state of matter.

Scientists can now study this interaction using particle accelerators, such as the LHC, and a new study recently fined tuned ...

Cern physicists searching for the telltale signs of new physics within the Large Hardon Collider have released their first ...

PB: Although we often call this future machine a Higgs factory, it has far more uses beyond making Higgs bosons. If you were to run it at higher energies, for example, you could make pairs of top ...

A decade after the discovery of the “amplituhedron,” physicists have excavated more of the timeless geometry underlying the ...

These four fundamental forces exist between fermions (quarks and leptons). They arise from the exchange of bosons. Bosons are the 'force carrying' or 'force-mediating' particles. If a fermion ...

An international team of scientists put the idea to the test thanks to mountains of data regarding OSIRIS-REx’s recent asteroid target Bennu.

Ultralight dark matter consists of small-mass dark matter particles, modeled as scalar bosons, which have no intrinsic spin. This creates a scalar field, which is smoothly distributed in space ...

These so-called optical lattices act as versatile potential landscapes to trap ultracold quantum gases of bosons and fermions. They form powerful model systems of quantum many-body systems in ...