Version 2 2024-10-06, 16:00Version 2 2024-10-06, 16:00
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preprint
posted on 2024-03-08, 17:00authored byAlessio Amaolo, Pengning Chao, Thomas J. Maldonado, Sean Molesky, Alejandro W. Rodriguez
We present a rigorous method for deriving limits on Raman scattering in structured media. We exploit this framework to constrain the maximum Raman signal resulting from a planewave incident on two experimentally relevant systems, consisting of either a single Raman molecule in the vicinity of a structured medium or a designable Raman medium (a distribution of Raman molecules). Results pertaining to metallic and dielectric structures illustrate the efficacy of structural optimization and the importance of accounting and co-designing for the nonlinear interplay between pump and signal fields. In particular, we show that treating the pump-focusing and signal-extraction processes separately, as has been done in prior works, leads to highly unrealistic predictions of achievable enhancements. The formulation could readily find applications in guiding further improvements on surface-enhanced Raman scattering (SERS) sensitivity and Raman-assisted lasing.
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