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Quantum Physics
Title: Dimensional Reduction in Quantum Optics
(Submitted on 11 Dec 2023 (v1), last revised 27 Mar 2024 (this version, v2))
Abstract: One-dimensional quantum optical models usually rest on the intuition of large scale separation or frozen dynamics associated with the different spatial dimensions, for example when studying quasi one-dimensional atomic dynamics, potentially resulting in the violation of $3+1D$ Maxwell's theory. Here, we provide a rigorous foundation for this approximation by means of the light-matter interaction. We show how the quantized electromagnetic field can be decomposed $-$ exactly $-$ into an infinite number of subfields living on a lower dimensional subspace and containing the entirety of the spectrum when studying axially symmetric setups, such as with an optical fiber, a laser beam or a waveguide. The dimensional reduction approximation then corresponds to a truncation in the number of such subfields that in turn, when considering the interaction with for instance an atom, corresponds to a modification to the atomic spatial profile. We explore under what conditions the standard approach is justified and when corrections are necessary in order to account for the dynamics due to the neglected spatial dimensions. In particular we will examine what role vacuum fluctuations and structured laser modes play in the validity of the approximation.
Submission history
From: Jannik Ströhle [view email][v1] Mon, 11 Dec 2023 19:00:02 GMT (905kb,D)
[v2] Wed, 27 Mar 2024 10:39:05 GMT (4031kb,D)
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