PDM KG-oscillators in cosmic string rainbow gravity spacetime in a non-uniform magnetic field

Abstract

We consider position-dependent mass (PDM) Klein-Gordon (KG) particles in cosmic string rainbow gravity spacetime in a non-uniform magnetic field. The corresponding KG-equation is reduced into the one-dimensional form of the two-dimensional radial Schr\"odinger-oscillator like equation (hence the notion KG-oscillator). We first report on the effects of rainbow gravity on the energy levels of KG-oscillators with constant mass. Next, we include the PDM settings so that KG-oscillators like interaction are introduced. The effects of PDM on the spectra of KG-oscillators in cosmic string rainbow gravity spacetime are also reported. In both cases four pairs of rainbow functions are considered: (a) % g_0( y) =1, g_1( y) =1-ε y2% , (b) g_0( y) =1, g_1( y) =% 1-ε y, (c) g_0( y) =g_1( y) =( 1-ε y) -1, and (d) g_0( y) =( eε y-1) /ε y, g_1( y) =1, where y=E/Ep and ε is the rainbow parameter. We report that, as long as KG-particles are in point, the rainbow functions pair in (a) is the only pair to emphasis that the Planck energy is the maximum possible energy the KG-particles may have.