📝 SummarXiv

Abstract

A theory for ground-state modifications of matter embedded in a Fabry-Perot cavity and whose excitations are described as harmonic oscillators is presented. Based on Lifshitz's theory for vacuum energy and employing a Lorentz model for the material permittivity, a non-perturbative macroscopic QED model was built that accounts for the infinite number of cavity modes with a continuum of their wavevectors. Differences from the commonly used single-mode Hopfield Hamiltonian are revealed. The non-resonant role of polaritons in the ground-state energy shift is also demonstrated, showing that the cavity effect is mainly caused by static screening occurring at very low frequencies. The theory allows for a straightforward incorporation of losses and temperature effects.