Asenjo, F. A., & Moya, P. S. (2019). The contribution of magnetic monopoles to the ponderomotive force. J. Phys. AMath. Theor., 52(25), 13 pp.
Abstract: When magnetic monopoles are assumed to exist in plasma dynamics, the propagation of electromagnetic waves is modified as Maxwell equations acquire a symmetrical structure due to the existence of electric and magnetic charge and current densities. This work presents a theoretical exploration on how far we can push the limits of a plasma theory under the presence of magnetic monopoles. In particular, we study the modification of ponderomotive forces in a plasma composed by electric and magnetic charges. We show that the general ponderomotive force on this plasma depends nontrivially on the magnetic monopoles, through the slow temporal and spatial variations of the electromagnetic field amplitudes. The magnetic charges introduce corrections even if the plasma is unmagnetized. Also, it is shown that the magnetic monopoles also experience a ponderomotive force due to the electrons. This force is in the direction of propagation of the electromagnetic waves.

Gomez, A. J., Gonzalez, S., & Sorella, S. P. (2016). YangMillsChernSimons system in the presence of a Gribov horizon with fundamental Higgs matter. J. Phys. AMath. Theor., 49(6), 10 pp.
Abstract: In this work we study the behaviour of YangMillsChernSimons theory coupled to a Higgs field in the fundamental representation by taking into account the effects of the presence of the Gribov horizon. By analyzing the infrared structure of the gauge field propagator, both confined and deconfined regions can be detected. The confined region corresponds to the appearance of complex poles in the propagators, while the deconfined one to the presence of real poles. One can move from one region to another by changing the parameters of the theory.
