Douglas B. Abraham, Anna Maciolek
Using exact calculations, we elucidate the significance of the surface (bound) states for the thermal Casimir interactions for an Ising strip with a finite width. The surface state arises whenever an imaginary wavenumber mode appears in the spectrum of the transfer matrix, taken in the direction parallel to the edges of the strip. Depending on the boundary conditions, the imaginary modes emerge below or above the bulk critical temperature, or below the wetting temperature of a single surface with surface magnetic field. The bound states are responsible for the strong asymmetry of the Casimir forces between the super- and sub-critical regimes and for their sign. Our analysis uses the fact that the Casimir forces have two mathematical forms. We show that these very different representation are the same and in the process find the origin of the asymmetry.
View original:
http://arxiv.org/abs/1206.5611
No comments:
Post a Comment