Cavity-induced shifts in thermal chemical activity are largest for low-density molecular ensembles, grow with Rabi splitting, and are strongest at low temperature when polariton dispersion and mode counting are included.
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Thermal chemical reactivity in Frenkel exciton-polariton cavities
Cavity-induced shifts in thermal chemical activity are largest for low-density molecular ensembles, grow with Rabi splitting, and are strongest at low temperature when polariton dispersion and mode counting are included.