Abstract
We consider the low-temperature expansion of the Casimir-Polder free energy for an atom and graphene by using the Poisson representation of the free energy. We extend our previous analysis on the different relations between chemical potential μ and mass gap parameter m. The key role plays the dependence of graphene conductivities on the μ and m. For simplicity, we made the manifest calculations for zero values of the Fermi velocity. For μ>m, the thermal correction ∼T2, and for μ<m, we confirm the recent result of Klimchitskaya and Mostepanenko, that the thermal correction ∼T5. In the case of exact equality μ=m, the correction ∼T. This point is unstable, and the system falls to the regime with μ>m or μ<m. The analytical calculations are illustrated by numerical evaluations for the Hydrogen atom/graphene system.
Funder
Fundação de Amparo à Pesquisa do Estado de São Paulo
Russian Foundation for Basic Research
Subject
General Physics and Astronomy
Reference34 articles.
1. On the attraction between two perfectly conducting plates;Casimir;Kon. Ned. Akad. Wetensch. Proc.,1948
2. The Influence of Retardation on the London-van der Waals Forces
3. Van der Waals Forces. A Handbook for Biologists, Chemists, Engineers, and Physicists;Parsegian,2006
4. Advances in the Casimir Effect
5. van der Waals coupling in atomically doped carbon nanotubes