Gauging the Relativistic Particle Model on the Noncommutative plane

TL;DR

This paper develops a new relativistic particle model on a noncommutative plane using symplectic formalism, introduces a shortcut for gauging, and analyzes the impact on phase space structure.

Contribution

It presents a novel approach for constructing and gauging relativistic particle models on noncommutative surfaces, including a shortcut method and handling of non-applicable cases.

Findings

Successfully constructed a gauged relativistic particle model on noncommutative space.

Derived gauge transformation generators and analyzed their effects.

Showed how gauging alters the canonical structure of phase space.

Abstract

We construct a new model for relativistic particle on the noncommutative surface in $(2+1)$ dimensions, using the symplectic formalism of constrained systems and embedding the model on an extended phase space. We suggest a short cut to construct the gauged Lagrangian, using the Poisson algebra of constraints, without calculating the whole procedure of symplectic formalism. We also propose an approach for the systems, in which the symplectic formalism is not applicable, due to truncation of secondary constraints appearing at the first level. After gauging the model, we obtained generators of gauge transformations of the model. Finally, by extracting the corresponding Poisson structure of all constraints, we show the effect of gauging on the canonical structure of the phase spaces of both primary and gauged models.