Related papers: Unified Effective Field Theory for Nonlinear and Quantum Optics

Unified Effective Field Theory for Nonlinear and Quantum Optics

URL: http://arxiv.org/abs/2511.04118v1
Date: Thu, 06 Nov 2025 07:09:52 GMT
Title: Unified Effective Field Theory for Nonlinear and Quantum Optics
Authors: Xiaochen Liu, Ken-Tye Yong,
Abstract summary: Real-time dynamics solved with a matrix-product-operator engine yield two to four percent agreement with published results for GaAs polariton cavities, epsilon-near-zero indium-tin-oxide films and superconducting quarton circuits.
Score: 3.90378585979906
License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: Predicting phenomena that mix few-photon quantum optics with strong field nonlinear optics is hindered by the use of separate theoretical formalisms for each regime. We close this gap with a unified effective field theory valid for frequencies lower than the material-dependent cutoff set by the band gap, plasma frequency, or similar scale. The action couples the electromagnetic gauge field to vector polarisation modes. An isotropic potential generates the optical susceptibilities, while a higher-dimension axion-like term captures magnetoelectric effects; quantisation on the Schwinger-Keldysh contour with doubled BRST ghosts preserves gauge symmetry in dissipative media. One-loop renormalisation-group equations reproduce the measured dispersion of the third-order susceptibility from terahertz to near-visible frequencies after matching a single datum per material. Real-time dynamics solved with a matrix-product-operator engine yield two to four percent agreement with published results for GaAs polariton cavities, epsilon-near-zero indium-tin-oxide films and superconducting quarton circuits. The current formulation is limited to these 1-D geometries and sub-cut-off frequencies; higher-dimensional or above-cut-off phenomena will require additional degrees of freedom or numerical methods.

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