Lifetime Reduction of Single Germanium-Vacancy Centers in Diamond via a Tunable Open Microcavity
Abstract
Coupling between a single quantum emitter and an optical cavity presents a key capability for future quantum networking applications. Here, we explore interactions between individual germanium-vacancy (GeV) defects in diamond and an open microcavity at cryogenic temperatures. Exploiting the tunability of our microcavity system to characterize and select emitters, we observe a Purcell-effect-induced lifetime reduction of up to 4.50.3, and extract coherent coupling rates up to 36020 MHz. Our results indicate that the GeV defect has favorable optical properties for cavity coupling, with a quantum efficiency of at least 0.340.05 and likely much higher.
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