Investigating the fast spectral diffusion of a quantum emitter in hBN using resonant excitation and photon correlations — Clarisse Fournier (2023) | RDL Network
Single-photon emitters in the solid state are subject to spectral broadening processes known as spectral diffusion and pure dephasing. Here, the authors show that a combination of quantum optics techniques, namely coherent laser drive and time-resolved photon correlations, can bring both processes to light in a single experimental protocol. This allows an extensive characterization of a large variety of solid-state quantum emitters. Their method is experimentally applied to a quantum emitter in the 2D material hexagonal boron nitride, further establishing this system as an appealing quantum photonics platform.
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