Simeon Bogdanov,1 Oksana Makarova,2 Ilya A Rodionov,3 Alexandra Boltasseva,4 Vladimir M Shalaev4
1Univ. of Illinois (United States) 2Harvard University (United States) 3Bauman Moscow State Technological University (Russian Federation) 4Purdue University (United States)
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Color centers in nanodiamonds are promising candidates to realize high-bandwidth quantum optical devices integrated on mature photonic platforms. However, both the optical properties of these emitters and the geometries of host nanoparticles are highly heterogenous. The interfacing of nanodiamond-based color centers with the on-chip photonic circuitry requires their careful pre-selection and deterministic manipulation with nanoscale precision. We present a suite of recently developed techniques for rapid emitter selection and nanofabrication aimed at realizing deterministically assembled plasmon-enhanced single-photon sources. These techniques include optical nanoparticle metrology, machine learning for quantum optical measurements, probe-assisted nanoantenna assembly and the control of plasmonic cavity volume through photomodification.
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Simeon Bogdanov, Oksana Makarova, Ilya A Rodionov, Alexandra Boltasseva, Vladimir M Shalaev, "Nanoassembled quantum photonic devices with nanodiamond-based color centers," Proc. SPIE PC12009, Quantum Sensing and Nano Electronics and Photonics XVIII, PC1200904 (5 March 2022); https://doi.org/10.1117/12.2609290