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Hamiltonian analysis of ModMax nonlinear electrodynamics in the first-order formalism

2022; World Scientific; Volume: 37; Issue: 03 Linguagem: Inglês

10.1142/s0217751x22500117

1793-656X

C. A. Escobar, Román Linares, B. Tlatelpa-Mascote,

Noncommutative and Quantum Gravity Theories

In this work, we study the so-called ModMax nonlinear electrodynamics, which is a novel model designed to preserve duality rotations and conformal transformations, such as the Maxwell’s equations do. This model allows to study diverse gravitational phenomena when it is coupled to General Relativity, in particular charged black holes and gravitational waves. In this work, we focus in the dynamics and Hamiltonian analysis of the model. Specifically, we analyze the propagation of the discontinuities of the field and obtain the corresponding dispersion relations. To perform the Hamiltonian analysis we adopt the first-order formalism develop by Plebański and follow the Dirac method for theories with constraints. We derive the effective Hamiltonian, classify all the constraints and identify the degrees of freedom. We prove that the effective Hamiltonian is strictly bounded from below and investigate the existence of nontrivial minima.