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Quantum Theory of Wave Scattering from Electromagnetic Time Interfaces

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posted on 2023-12-28, 17:00 authored by M. S. Mirmoosa, T. Setälä, A. Norrman
Modulating macroscopic parameters of materials in time reveals alternative avenues for manipulating electromagnetic waves. Due to such a significant impact, the general research subject of time-varying systems is flourishing today in different branches of electromagnetism and optics. However, besides uncovering different phenomena and effects in the realm of classical electrodynamics, we need to simultaneously study also the quantum aspects of this emerging subject in order to comprehend thoroughly the behavior of quanta of electromagnetic fields. Here, through the lens of quantum optics, we scrutinize the interaction of electromagnetic waves with materials whose effective parameters suddenly change in time. In particular, considering the basic case of temporal discontinuity for the refractive index of a non-dispersive dielectric material, we explicitly show the transformation of bosonic annihilation and creation operators and describe corresponding output quantum states for two specific input states: A Fock state and a coherent state. Accordingly, we rigorously elucidate the probability distribution and illustrate the related photon statistics. In consequence, we explain phenomena such as photon-pair generation and remark on several important conditions associated with photon statistics. Hopefully, this work paves the road for further vital explorations of a quantum theory of wave interaction with photonic time crystals or with dispersive time-varying materials.

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