PDM KG-Coulombic particles in cosmic string rainbow gravity spacetime and a uniform magnetic field

Abstract

Klein-Gordon (KG) particles in cosmic string rainbow gravity spacetime and a uniform magnetic field are studied in the context of the so called, metaphorically speaking, position-dependent mass (PDM) settings. We show that the corresponding KG-equation collapses into a two-dimensional radial Schr\"odinger-Coulomb like model. The exact textbook solution of which is used to find the energies and wave functions of KG-Coulombic particles (both constant mass and PDM ones). In so doing, we consider, with y=E/EP, four pairs of rainbow functions: (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. Interestingly, we observe that the first pair in (a) introduces the Planck energy Ep as a maximum possible KG-particle/antiparticle energy value.