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Large-Scale, High-Yield Laser Fabrication of Bright and Pure Single-Photon Emitters at Room Temperature in Hexagonal Boron Nitride

Lin Gan, Danyang Zhang, Ruiling Zhang, Qiyao Zhang, Hao Sun, Yongzhuo Li, Cun‐Zheng Ning

2022ACS Nano74 citationsDOI

Abstract

Single-photon emitters (SPEs) play an important role in many optical quantum technologies. However, an efficient large-scale approach to the generation of high-quality SPE arrays remains an elusive goal at room temperature. Here, we demonstrate a scalable method of generating SPE arrays in hexagonal boron nitride (hBN) with high yield, brightness, and purity using single-pulse irradiation by a femtosecond laser. Our use of a single pulse per defect pattern minimized heat-related damages and improved the purity of SPEs compared with the previous laser-based approaches. Under the optimized fabrication and post-treatment conditions, SPE arrays were successfully generated from the 3.0 μm defect patterns with 43% yield, the highest among the 2D-based top-down approaches. Importantly, we found that 100% of the bright defect patterns are SPEs with g2(0) < 0.5 under such conditions, with the lowest g2(0) = 0.06 ± 0.03. Our SPEs also exhibit the highest brightness with the saturation SPE rate at 7.15 million counts per second. We believe that our overall high-quality and large-scale approach will help a wide range of applications of SPEs in on-chip quantum technologies.

Topics & Concepts

Materials scienceFemtosecondOptoelectronicsFabricationLaserQuantum yieldYield (engineering)BrightnessPhotonOpticsPhysicsAlternative medicineMedicineFluorescenceMetallurgyPathologyDiamond and Carbon-based Materials ResearchNonlinear Optical Materials StudiesAdvanced Fiber Laser Technologies
Large-Scale, High-Yield Laser Fabrication of Bright and Pure Single-Photon Emitters at Room Temperature in Hexagonal Boron Nitride | Litcius