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Q: Fachverband Quantenoptik und Photonik

Q 2: Nano-Optics and Optomechanics

Q 2.8: Poster

Montag, 20. September 2021, 16:30–18:30, P

Precise Approaches for Determining Transition Rates and Quantum Efficiency of Single Color Centers — •Di Liu^1,2, Naoya Morioka³, Öney Soykal⁴, Izel Gediz^1,2, Charles Babin^1,2, Rainer Stöhr^1,2, Takeshi Ohshima⁵, Nguyen tien Son⁶, Jawad Ul-Hassan⁶, Florian Kaiser^1,2, and Jörg Wrachtrup^1,2 — ¹3rd Institute of Physics, University of Stuttgart, Stuttgart, Germany — ²Institute for Quantum Science and Technology (IQST), Germany — ³Institute for Chemical Research, Kyoto University, Uji, Japan — ⁴Booz Allen Hamilton, McLean, VA, USA — ⁵National Institutes for Quantum and Radiological Science and Technology, Takasaki, Japan — ⁶Department of Physics, Chemistry and Biology, Linköping, Sweden

Optically-active spins in solids are appealing candidates for quantum technological applications due to the unique interplay between their spins and photons. The performance of those spin-based technologies is further boosted with highly-efficient spin-photon interfaces, such as a nanophotonic resonantor. The design of such nanostructures requires comprehensive understanding of the system’s spin-optical dynamics. To overcome this, we developed a full set of measurements combining sublifetime short resonant and off-resonant pulses to infer the transition rates of a single color center i.e. V1 center in silicon carbide, with high precision. With those measured rates, we also estimated the quantum efficiency of the system. Our method paves way for a better understanding of the intrinsic properties of color centers, which in turn guides the design of nanophotonic resonators.