Mikolaj K. Schmidt, Ruben Esteban, Alejandro Gonzalez-Tudela, Geza Giedke, Javier Aizpurua
Published 2015-09-13Version 1
Plasmon-enhanced Raman scattering can push single-molecule vibrational spectroscopy beyond a regime addressable by classical electrodynamics. We employ a quantum electrodynamics (QED) description of the coherent interaction of plasmons and molecular vibrations that reveal the emergence of nonlinearities in the inelastic response of the system. For realistic situations, we predict the onset of \textit{phonon-stimulated Raman scattering} and an counter-intuitive dependence of the anti-Stokes emission on the frequency of excitation. We further show that this novel QED framework opens a venue to analyze the correlations of photons emitted at a plasmonic cavity
Raman scattering with strongly coupled vibron-polaritons
Coupling Spin Defects in a Layered Material to Nanoscale Plasmonic Cavities
Systematic control of Raman scattering with topologically induced chirality of light
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