Retardation-enhanced van der Waals force between thin metal films

We recently investigated the van der Waals force between thin metal films. Under certain conditions this force decrease with separation to a fractional power. In the present work we use optical data of metals and the zero-temperature Lifshitz formalism to demonstrate a retardation effect. The retarded attraction between thin metal films may be larger than the nonretarded attraction. This property is related to a comparatively weak retardation dependence of the energy that originates from the transverse magnetic modes. At separations where the transverse electric modes give a significant contribution, the net effect can actually be an increased attraction. This effect vanishes with increasing film thickness and with increasing dissipation.Original Publication: Mathias Boström and Bo Sernelius, Retardation-enhanced van der Waals force between thin metal films, 2000, Physical Review B Condensed Matter, (62), 11, 7523-7526. http://dx.doi.org/10.1103/PhysRevB.62.7523 Copyright: American Physical Society http://www.aps.org