Vacuum polarization in d+1/2 dimensions

Abstract

We study the main properties of the one-loop vacuum polarization function (α β) for spinor QED in `d + 1/2 dimensions', i.e., with fields defined on M ⊂ Rd+1 such that M = \(x0,...,xd) | xd≥ 0 \, with bag-like boundary conditions on the boundary ∂ M = \(x0,...,xd) | xd= 0 \. We obtain an exact expression for the induced current due to an external constant electric field normal to the boundary. We show that, for the particular case of 2+1 dimensions, there is a transverse component for the induced current, which is localized on a region close to ∂ M. This current is a parity breaking effect purely due to the boundary.

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