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Main Authors: McKillop, Alexander M., Weichman, Marissa L.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.05261
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author McKillop, Alexander M.
Weichman, Marissa L.
author_facet McKillop, Alexander M.
Weichman, Marissa L.
contents Nonlinear spectroscopy is widely used to study the transient dynamics of molecules under strong light-matter coupling, though it remains unclear to what extent uncoupled intracavity molecules obscure signals from the strongly-coupled species of interest. Pump or probe fields resonant in the strongly-coupled spectral region will preferentially interact with cavity-coupled molecules, but can exhibit severe optical artifacts due to wave interference in the cavity. On the other hand, non-resonant pump or probe fields having wavelengths at which the cavity mirrors are highly transmissive propagate as traveling waves along the cavity axis, interacting with both coupled and uncoupled intracavity molecules. Here, we quantify the contributions of signals from strongly-coupled and uncoupled populations in simulated experiments with different resonant and non-resonant pump-probe configurations. We find that while resonant schemes maximize selectivity for the signals of strongly-coupled molecules, non-resonant schemes retain surprisingly high sensitivity to these signals while remaining less susceptible to optical artifacts.
format Preprint
id arxiv_https___arxiv_org_abs_2604_05261
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Nonlinear signal enhancement of strongly-coupled molecules in pump-probe experiments
McKillop, Alexander M.
Weichman, Marissa L.
Chemical Physics
Quantum Physics
Nonlinear spectroscopy is widely used to study the transient dynamics of molecules under strong light-matter coupling, though it remains unclear to what extent uncoupled intracavity molecules obscure signals from the strongly-coupled species of interest. Pump or probe fields resonant in the strongly-coupled spectral region will preferentially interact with cavity-coupled molecules, but can exhibit severe optical artifacts due to wave interference in the cavity. On the other hand, non-resonant pump or probe fields having wavelengths at which the cavity mirrors are highly transmissive propagate as traveling waves along the cavity axis, interacting with both coupled and uncoupled intracavity molecules. Here, we quantify the contributions of signals from strongly-coupled and uncoupled populations in simulated experiments with different resonant and non-resonant pump-probe configurations. We find that while resonant schemes maximize selectivity for the signals of strongly-coupled molecules, non-resonant schemes retain surprisingly high sensitivity to these signals while remaining less susceptible to optical artifacts.
title Nonlinear signal enhancement of strongly-coupled molecules in pump-probe experiments
topic Chemical Physics
Quantum Physics
url https://arxiv.org/abs/2604.05261