Scalar Casimir densities and forces for parallel plates in cosmic string spacetime

TL;DR

This paper investigates the Casimir effect for a scalar field between parallel plates in a cosmic string spacetime, revealing unique boundary and topological influences on vacuum energies and forces.

Contribution

It provides explicit calculations of vacuum expectation values and Casimir forces in a cosmic string background with Robin boundary conditions, highlighting new shear stress effects.

Findings

Boundary-induced VEVs are finite outside the string core.

Casimir forces include nonzero shear components due to the cosmic string.

Differences in forces for Dirichlet and Neumann boundary conditions are identified.

Abstract

We analyze the Casimir densities and forces associated with a massive scalar quantum field confined between two parallel plates in a D-dimensional cosmic string spacetime. The plates are placed orthogonal to the string and the field obeys the Robin boundary conditions on them. The boundary-induced contributions are explicitly extracted in the vacuum expectation values (VEVs) of the field squared and energy-momentum tensor for both single and two plates. The VEV of the energy-momentum tensor, in additional to the diagonal components, contains an off-diagonal component corresponding to the shear stress. The latter vanishes on the plates in special cases of Dirichlet and Neumann boundary conditions. For points outside the string core the topological contributions in the VEVs are finite on the plates. Near the string the VEVs are dominated by the boundary-free part, whereas at large distances the boundary-induced contributions dominate. Due to the nonzero off-diagonal component of the vacuum energy-momentum tensor, in addition to the normal component, the Casimir forces have nonzero component parallel to the boundary. Unlike the problem on the Minkowski bulk, the normal forces acting on the separate plates, in general, do not coincide. Another difference is that in the presence of the cosmic string the Casimir forces for Dirichlet and Neumann boundary conditions differ. For Dirichlet case the normal Casimir force does not depend on the curvature coupling parameter. This is not the case for other boundary conditions. A new qualitative feature induced by the cosmic string is the appearance of the shear stress acting on the plates. The corresponding force is directed along the radial coordinate and vanishes for Dirichlet and Neumann cases. Depending on the parameters of the problem, the radial component of the shear force can be either positive or negative.