Abstract
The resonant interaction of light with all-dielectric nanostructures strongly affects the spontaneous emission of quantum emitters. In particular, the excitation of electric and magnetic modes in dielectric structures coupled with solid-state emitters yields unprecedented control over their emission directivity and spontaneous decay rates. Dielectric nanostructures behave like optical antennas able to enhance (i) electric or magnetic near fields, (ii) decay rates of both electric and magnetic emitters but also (iii) to shape the emission pattern through the coherent excitation of electric and magnetic modes.
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