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Quantum efficiency and vertical position of quantum emitters in hBN determined by Purcell effect in hybrid metal-dielectric planar photonic structures

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arxiv 2407.20160 v3 pith:54R4DSFY submitted 2024-07-29 physics.optics quant-ph

Quantum efficiency and vertical position of quantum emitters in hBN determined by Purcell effect in hybrid metal-dielectric planar photonic structures

classification physics.optics quant-ph
keywords quantumemittersefficiencyplanarstructurescenterscolorefficient
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Color centers in hexagonal boron nitride (hBN) advantageously combine excellent photophysical properties with a potential for integration in highly compact devices. Progress towards scalable integration necessitates a high quantum efficiency and an efficient photon collection. In this context, we compare the optical characteristics of individual hBN color centers generated by electron irradiation, in two different electromagnetic environments. We keep track of well-identified emitters that we characterize before and after dry transfer of exfoliated crystals. This comparison provides information about their quantum efficiency - which we find close to unity - as well as their vertical position in the crystal with nanometric precision, which we find away from the flake surfaces. Our work suggests hybrid dielectric-metal planar structures as an efficient tool for characterizing quantum emitters in addition to improving the count rate, and can be generalized to other emitters in 2D materials or in planar photonic structures.

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  1. Disorder-Engineered Hybrid Plasmonic Cavities for Emission Control of Defects in hBN

    physics.optics 2025-06 unverdicted novelty 5.0

    Disorder-engineered hybrid plasmonic nanocavities on hBN defects deliver up to 100-fold photoluminescence enhancement and size-dependent lifetime control via thermal dewetting fabrication.