Temperature-Induced Plasmon Excitations for the [Formula: see text] – [Formula: see text] Lattice in Perpendicular Magnetic Field

We have investigated the [Formula: see text] – [Formula: see text] model in the presence of a mass term which opens a gap in the energy dispersive spectrum, as well as under a uniform perpendicular quantizing magnetic field. The gap opening mass term plays the role of Zeeman splitting at low magnetic fields for this pseudospin-1 system, and, as a consequence, we are able to compare physical properties of the the [Formula: see text] – [Formula: see text] model at low and high magnetic fields. Specifically, we explore the magnetoplasmon dispersion relation in these two extreme limits. Central to the calculation of these collective modes is the dielectric function which is determined by the polarizability of the system. This latter function is generated by transition energies between subband states, as well as the overlap of their wave functions.