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Mapping and Quantifying Electric and Magnetic Dipole Luminescence at the nanoscale

We report on an experimental technique to quantify the relative importance of electric and magnetic dipole luminescence from a single nanosource in structured environments. By attaching a $Eu^{3+}$-doped nanocrystal to a near-field scanning optical microscope tip, we map the branching ratios associated to two electric dipole and one magnetic dipole transitions in three dimensions on a gold stripe. The relative weight of the electric and magnetic radiative local density of states can be recovered quantitatively, based on a multilevel model. This paves the way towards the full electric and magnetic characterization of nanostructures for the control of luminescence at the single emitter level.

preprint2014arXivOpen access
L. AigouyA. CazéP. GredinM. MortierR. Carminati
physics.optics
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L. AigouyA. CazéP. GredinM. MortierR. Carminati

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