Single telecom-wavelength vanadium quantum emitters in SiC with ultra-narrow inhomogeneous broadening
ORAL
Abstract
Spin-photon interfaces associated with quantum emitters have shown great promise in quantum technologies, but a key limitation is a wide spread in optical emission frequencies, often spanning tens of GHz. In this talk, I will describe our work on telecom-ready single V4+ vanadium centres in 4H-SiC. By optical spectroscopy on individual emitters, we demonstrated for the first time spin-dependent optical transitions. By carefully engineering the SiC matrix's isotopic composition, we demonstrate a narrowing of the inhomogeneous spectral distribution among different emitters to a mere 100 MHz—considerably smaller than other single quantum emitters reported in the literature. These findings enhance the potential of single V emitters in SiC as material nodes for scalable telecom quantum networks.
*This work is supported by the European Commission project QuanTELCO (grant agreement No 862721), the Austrian Research Promotion Agency project QSense4Power (FFG 877615), the Engineering and Physical Sciences Research Council (EP/S000550/1), the Leverhulme Trust (RPG-2019-388), the Swedish Research Council (VR: 2020-05444) and the Knut and Alice Wallenberg Foundation (KAW 2018.0071).
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Publication: Cilibrizzi, P., Arshad, M. J., Tissot, B., Son, N. T., Ivanov, I. G., Astner, T., ... & Bonato, C. (2023). Ultra-narrow inhomogeneous spectral distribution of telecom-wavelength vanadium centres in isotopically-enriched silicon carbide. arXiv preprint arXiv:2305.01757.
Presenters
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Muhammad Junaid Arshad
- Heriot-Watt University