Cavity photons induce light-enhanced quantum self-trapping of vibrational excitons at weak coupling and accelerated transfer at stronger coupling, with critical strengths where dynamics freeze into stabilized many-vibron bound states.
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Density-modulated atomic ensembles in coupled cavities enable control of mode-mode couplings via interference, producing tunable atom-photon spectral subsplittings and selective photon transfer.
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Light-Induced Quantum Self-Trapping of Vibrational Excitons in an Optical Cavity
Cavity photons induce light-enhanced quantum self-trapping of vibrational excitons at weak coupling and accelerated transfer at stronger coupling, with critical strengths where dynamics freeze into stabilized many-vibron bound states.
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Engineering Atom-Photon Hybridization with Density-Modulated Atomic Ensembles in Coupled Cavities
Density-modulated atomic ensembles in coupled cavities enable control of mode-mode couplings via interference, producing tunable atom-photon spectral subsplittings and selective photon transfer.