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Theory of Vibrational Polariton Chemistry in the Collective Coupling Regime (2107.04156v1)

Published 9 Jul 2021 in physics.chem-ph, cond-mat.other, physics.optics, and quant-ph

Abstract: We theoretically demonstrate that chemical reaction rate constant can be significantly suppressed by coupling molecular vibrations with an optical cavity, exhibiting both the collective coupling effect and the cavity-frequency modification of the rate constant. When a reaction coordinate is strongly coupled to the solvent molecules, the reaction rate constant is reduced due to the dynamical caging effect. We demonstrate that collectively coupling the solvent to the cavity can further enhance this dynamical caging effect, leading to additional suppression of the chemical kinetics. This effect is further amplified when cavity loss is considered.