posted on 2023-10-03, 16:00authored byKishan. S. Menghrajani, Benjamin. J. Bower, Graham. J. Leggett, William. L. Barnes
The coherent strong coupling of molecules with confined light fields to create polaritons - part matter, part light - is opening exciting opportunities ranging from extended exciton transport and inter-molecular energy transfer to modified chemistry and material properties. In many of the envisaged applications open access to the molecules involved is vital, as is independent control over polariton dispersion, and spatial uniformity. Existing cavity designs are not able to offer all of these advantages simultaneously. Here we demonstrate an alternative yet simple cavity design that exhibits all of the the desired features. We hope the approach we offer here will provide a new technology platform to both study and exploit molecular strong coupling. Although our experimental demonstration is based on excitonic strong coupling, we also indicate how the approach might also be achieved for vibrational strong coupling.
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