Dirac fermion

In physics, a Dirac fermion is a spin-½ particle (a fermion) which is different from its antiparticle. The vast majority of fermions – perhaps all – fall under this category.

Description[]

In particle physics, all fermions in the standard model have distinct antiparticles (perhaps excepting neutrinos) and hence are Dirac fermions. They are named after Paul Dirac, and can be modeled with the Dirac equation.

A Dirac fermion is equivalent to two Weyl fermions.^[1] The counterpart to a Dirac fermion is a Majorana fermion, a particle that must be its own antiparticle.

Dirac quasi-particles[]

In condensed matter physics, low-energy excitations in graphene and topological insulators, among others, are fermionic quasiparticles described by a pseudo-relativistic Dirac equation.

References[]

^ Shifman, Mikhail (1999). "ITEP Lectures on Particle Physics and Field Theory". 1: 292. ISBN 9789810239480. Cite journal requires |journal= (help)

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[Weyl-1] Shifman, Mikhail (1999). "ITEP Lectures on Particle Physics and Field Theory". 1: 292. ISBN 9789810239480. Cite journal requires |journal= (help)

[1]

Dirac fermion

Contents

Description[]

Dirac quasi-particles[]

See also[]

References[]