Quantum field theoretical description of the Casimir effect between two real graphene sheets and thermodynamics

Abstract: The analytic asymptotic expressions for the Casimir free energy and entropy for two parallel graphene sheets possessing nonzero energy gap ∆ and chemical potential µ are derived at arbitrarily low temperature. Graphene is described in the framework of thermal quantum field theory in the Matsubara formulation by means of the polarization tensor in (2+1)-dimensional space-time.Different asymptotic expressions are found under the conditions ∆ > 2µ, ∆ = 2µ, and ∆ < 2µ taking into account both the implicit temperat… Show more