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Quantum Chemistry
Engineering dipole-dipole couplings for enhanced cooperative light-matter interactions
arXiv
Authors: Adam Burgess, Madeline C. Waller, Erik M. Gauger, Robert Bennett
Year
2024
Paper ID
38214
Status
Preprint
Abstract Read
~2 min
Abstract Words
116
Citations
N/A
Abstract
Cooperative optical effects are enabled and controlled by interactions between molecular dipoles, meaning that their mutual orientation is of paramount importance to, for example, superabsorbing light-harvesting antennas. Here we show how to move beyond the possibilities of simple geometric tailoring, demonstrating how a metallic sphere placed within a ring of parallel dipoles engineers an effective Hamiltonian that generates "guide-sliding" states within the ring system. This allows steady-state superabsorption in noisy room temperature environments, outperforming previous designs while being significantly simpler to implement. As exemplified by this showcase, our approach represents a powerful design paradigm for tailoring cooperative light-matter effects in molecular structures that extends beyond superabsorbing systems, to a huge array of quantum energy transport systems.
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- Cooperative optical effects are enabled and controlled by interactions between molecular dipoles, meaning that their mutual orientation is of paramount importance to, for...
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