Nanodiamond integration with photonic devices
Marina Radulaski, Jingyuan Linda Zhang, Yan-Kai Tzeng, Konstantinos G., Lagoudakis, Hitoshi Ishiwata, Constantin Dory, Kevin A. Fischer, Yousif A., Kelaita, Shuo Sun, Peter C. Maurer, Kassem Alassaad, Gabriel Ferro, Zhi-Xun, Shen, Nicholas Melosh, Steven Chu
TL;DR
This paper reviews advances in integrating nanodiamonds with photonic devices, highlighting experimental progress across various platforms and demonstrating enhanced light emission for quantum photonics applications.
Contribution
It presents new hybrid nanodiamond-photonic devices with significantly improved emission, advancing integrated quantum photonics technology.
Findings
Up to five-fold enhancement of color center emission.
Successful growth of nanodiamonds on SiC microdisks.
Potential for scalable quantum photonic devices.
Abstract
We discuss the progress in integration of nanodiamonds with photonic devices for quantum optics applications. Experimental results in GaP, SiO2 and SiC-nanodiamond platforms show that various regimes of light and matter interaction can be achieved by engineering color center systems through hybrid approaches. We present our recent results on the growth of color center-rich nanodiamond on prefabricated 3C-SiC microdisk resonators. These hybrid devices achieve up to five-fold enhancement of diamond color center light emission and can be employed for integrated quantum photonics.
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Taxonomy
TopicsDiamond and Carbon-based Materials Research · Advanced Fiber Laser Technologies · Photonic and Optical Devices