A hybrid cavity combining a plasmonic nanoresonator inside a dielectric cavity enables indistinguishable photon generation from dephased emitters with much lower dielectric Q factors and 12x higher collection efficiency.
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A TDDFT time-evolution approach captures broad surface plasmon resonances in the continuum for aluminum clusters, showing evolution from discrete features in small clusters like Al6 to deep-UV plasmons in larger ones like Al13-.
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Indistinguishablity from dephased emitters using combined plasmonic-dielectric cavities
A hybrid cavity combining a plasmonic nanoresonator inside a dielectric cavity enables indistinguishable photon generation from dephased emitters with much lower dielectric Q factors and 12x higher collection efficiency.
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Surface Plasmons in the Continuum
A TDDFT time-evolution approach captures broad surface plasmon resonances in the continuum for aluminum clusters, showing evolution from discrete features in small clusters like Al6 to deep-UV plasmons in larger ones like Al13-.