A groundbreaking study by Rice University physicist Kaden Hazzard and former student Zhiyuan Wang has established the ...

Quantum mechanics has long classified particles into just two distinct types: fermions and bosons. Now physicists from Rice University in the US have found a third type might be possible after all ...

Theoretical physicists have proposed the existence of a new type of particle that doesn’t fit into the conventional classifications of fermions and bosons. Their ‘paraparticle’, described in ...

Note: The verification e-mail to complete your account registration should arrive immediately. However, in some cases it takes longer. Don't forget to check your spam folder.

Since the start of the 20th century, physicists have discovered a veritable zoo of subatomic particles. Matter can be both wave and particle. If you take the particle route, these subatomic particles ...

Every fundamental particle in the universe fits into one of two groups called fermions and bosons, but now it seems there could be other particles out there that break this simple classification and w ...

In quantum physics, subatomic particles behave strangely—they can be in two places simultaneously, move through solid objects ...

The model divides the particles into two broad divisions: fermions and bosons. Fermions make up the matter in the universe, while bosons carry the forces between them. The fermions are further ...

This is fundamentally different from the behavior of conventional fermions and bosons, offering a new mechanism for quantum computation. The unique properties of Majorana fermions hold great promise ...

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 ...