Canonical quantization of electromagnetism in spatially dispersive media

Horsley, S.A.R.; Philbin, Thomas G.

Abstract

We ﬁnd the action that describes the electromagnetic ﬁeld in a spatially dispersive, homogeneous medium. This theory is quantized and the Hamiltonian is diagonalized in terms of a continuum of normal modes. It is found that the introduction of nonlocal response in the medium automatically regulates some previously divergent results, ...

We ﬁnd the action that describes the electromagnetic ﬁeld in a spatially dispersive, homogeneous medium. This theory is quantized and the Hamiltonian is diagonalized in terms of a continuum of normal modes. It is found that the introduction of nonlocal response in the medium automatically regulates some previously divergent results, and we calculate a ﬁnite value for the intensity of the electromagnetic ﬁeld at a ﬁxed frequency within a homogeneous medium. To conclude we discuss the potential importance of spatial dispersion in taming the divergences that arise in calculations of Casimir-type effects.

Canonical quantization of electromagnetism in spatially dispersive media

Physics and Astronomy

Faculty of Environment, Science and Economy