CANONICAL STRUCTURE OF GAUGE INVARIANCE PROCA'S ELECTRODYNAMICS THEORY

@inproceedings{Zambrano2018CANONICALSO,
  title={CANONICAL STRUCTURE OF GAUGE INVARIANCE PROCA'S ELECTRODYNAMICS THEORY},
  author={German Enrique Ramos Zambrano and Bruto Max Pimentel},
  year={2018}
}
Proca's electrodynamics describes a theory of massive photons which is not gauge invariant. In this paper we show that the gauge invariance is recovered if a scalar field is properly incorporated into the theory. We followed the Dirac's technique to perform a detailed analysis of the constraint structure of the theory. Appropriate gauge conditions were derived to eliminate the first class constraints and obtain the Dirac's brackets of the independent dynamical variables. Alternatively, the… 

Generalized Stueckelberg-Higgs Gauge Theory

The aim of this work is to discuss and explore some generalized aspects of generation of photon mass respecting gauge symmetry. We introduce generalized Stueckelberg and Higgs gauge theories and

Yang–Mills Theory of Gravity

The canonical formulation of general relativity (GR) is based on decomposition space–time manifold M into R × Σ , where R represents the time, and Ksi is the three-dimensional space-like surface.

References

SHOWING 1-10 OF 12 REFERENCES

Constrained Dynamics: With Applications to Yang-Mills Theory, General Relativity, Classical Spin, Dual String Model

Classical regular systems.- Classical singular systems.- The reduced phase-space.- Quantization of constrained systems.- The electromagmetic field.- Yang-Mills theory.- The relativistic particle.-

Lectures on Quantum Mechanics

Phys

  • Rev. Lett. 26, 721
  • 1971

Nature 307

  • 14
  • 1984

Phys

  • Rev. D 10, 500
  • 1974

Phys

  • Rev. D 8, 2386
  • 1973

Phys

  • Rev. Lett. 60, 1692
  • 1988

and C

  • Teitelboim, Constrained Hamiltonian Systems
  • 1976

Phys

  • Rev. Lett. 73, 514
  • 1994

Phys

  • Rev. Lett. 68, 3383
  • 1992