Oscillating Casimir force of trapped Bose gas in electromagnetic field

Abstract

In this study, we consider motion of the massive and charged Bose gas trapped in electric and magnetic fields between two parallel plates in the x-y plane that are separated by a distance d in the z direction. We derive analytical expression of the grand canonical potential of the quantum particles by using of Ketterle and van Druten approximation. By evaluating canonical potential, we obtain Casimir potential and force at the Bose-Einstein condensation temperature Tc. We also show that Casimir force oscillates depends on distance d for fixed parameters.