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W1489959446 abstract "In most theoretical descriptions of collective strong coupling of organic molecules to a cavity mode, the molecules are modeled as simple two-level systems. This picture fails to describe the rich structure provided by their internal rovibrational (nuclear) degrees of freedom. We investigate a first-principles model that fully takes into account both electronic and nuclear degrees of freedom, allowing an exploration of the phenomenon of strong coupling from an entirely new perspective. First, we demonstrate the limitations of applicability of the Born-Oppenheimer approximation in strongly coupled molecule-cavity structures. For the case of two molecules, we also show how dark states, which within the two-level picture are effectively decoupled from the cavity, are indeed affected by the formation of collective strong coupling. Finally, we discuss ground-state modifications in the ultra-strong coupling regime and show that some molecular observables are affected by the collective coupling strength, while others only depend on the single-molecule coupling constant." @default.
W1489959446 created "2016-06-24" @default.
W1489959446 creator A5016132041 @default.
W1489959446 creator A5020503583 @default.
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W1489959446 date "2015-11-09" @default.
W1489959446 modified "2023-10-17" @default.
W1489959446 title "Cavity-Induced Modifications of Molecular Structure in the Strong-Coupling Regime" @default.
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W1489959446 doi "https://doi.org/10.1103/physrevx.5.041022" @default.
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