Equivalence between the planar Dirac oscillator and a spin-1/2 fermion embedded in a transverse homogeneous magnetic field

Castro, Antonio Soares de

Equivalence between the planar Dirac oscillator and a spin-1/2 fermion embedded in a transverse homogeneous magnetic field

AUTOR(ES)

Castro, Antonio Soares de

FONTE

Rev. Bras. Ensino Fís.

DATA DE PUBLICAÇÃO

10/07/2019

RESUMO

Abstract It is shown that a spin-1/2 fermion coupled to the axially symmetric electromagnetic vector potential has the same matrix structure as that one for the planar Dirac oscillator. In particular, the planar Dirac oscillator can be interpreted as a charged particle minimally coupled to a transverse homogeneous magnetic field.

ACESSO AO TEXTO COMPLETO

Documentos Relacionados

Equivalence between the Dirac oscillator and a spin-1/2 fermion embedded in a transverse homogeneous magnetic field: movement in a (2 + 1)-dimensional world
The spin-1/2 ising model with skew magnetic field at high temperatures
The effective charge velocity of spin-¹/2 superlattices
Magnetic Anisotropy and the Orientation of Retinal Rods in a Homogeneous Magnetic Field
Comparing the Schrödinger and Dirac Descriptions of an Electron in a Uniform Magnetic Field