Narrow-linewidth homogeneous optical emitters in diamond nanostructures via silicon ion implantation

Abstract: The negatively-charged silicon-vacancy ($\mathrm{SiV}^{-}$) center in diamond is a bright source of indistinguishable single photons and a useful resource in quantum information protocols. Until now, $\mathrm{SiV}^{-}$ centers with narrow optical linewidths and small inhomogeneous distributions of $\mathrm{SiV}^{-}$ transition frequencies have only been reported in samples doped with silicon during diamond growth. We present a technique for producing implanted $\mathrm{SiV}^{-}$ centers with nearly lifetime-limited optical linewidths and a small inhomogeneous distribution. These properties persist after nanofabrication, paving the way for incorporation of high-quality $\mathrm{SiV}^{-}$ centers into nanophotonic devices.