The Large Hadron Collider (LHC) is like an immensely powerful kitchen, designed to cook up some of the rarest and hottest ...

Collisions of electron and positron beams created the high-energy environment needed to produce subatomic particles.

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 ...

They then interpret the braids obtained by suitably twisting these ribbons as the quarks, leptons and gauge bosons of the standard model of elementary particles (Fig. 1). The attractive feature of ...

Since the launch of the Large Hadron Collider, there has been ongoing research there into Higgs bosons and a search for ...

Electrons are one of the six types of lepton. Leptons are particles that can exist on their own. Protons and neutrons belong to the ‘family’ of hadrons. The hadrons are the heavier particles.

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

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 ...

Furthermore, there are a few more Hidden sector scenarios which could be investigated by NA62, for example, Heavy Neutral Leptons (HNLs). HNLs are particularly interesting because they can address ...

The new Belle II experiment recently made a world-leading measurement of the lifetime of a particular charmed baryon, a ...

Atoms are shattered into electrons, protons, neutrons. Those minute pieces are pulped into quarks and leptons and gluons. And so on, tinier and tinier, denser and denser, until... Until no one knows.