7,739 research outputs found
N=2-Maxwell-Chern-Simons model with anomalous magnetic moment coupling via dimensional reduction
An N=1--supersymmetric version of the Cremmer-Scherk-Kalb-Ramond model with
non-minimal coupling to matter is built up both in terms of superfields and in
a component-field formalism. By adopting a dimensional reduction procedure, the
N=2--D=3 counterpart of the model comes out, with two main features: a genuine
(diagonal) Chern-Simons term and an anomalous magnetic moment coupling between
matter and the gauge potential.Comment: 15 pages, Latex; one reference corrected; To be published in the Int.
J. Mod. Phys.
Ground State of the Hydrogen Atom via Dirac Equation in a Minimal Length Scenario
In this work we calculate the correction to the ground state energy of the
hydrogen atom due to contributions arising from the presence of a minimal
length. The minimal length scenario is introduced by means of modifying the
Dirac equation through a deformed Heisenberg algebra (kempf algebra). With the
introduction of the Coulomb potential in the new Dirac energy operator, we
calculate the energy shift of the ground state of the hydrogen atom in first
order of the parameter related to the minimal length via perturbation theory.Comment: 11 page
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