Abstract
The tin-vacancy color center in diamond (SnV) is a promising candidate for a spin-photon interface in a quantum network. This prospect follows from its many advantageous properties [1] such as first-order insensitivity to Stark shifts due to its inversion symmetry, and the ability to operate at elevated temperatures due to its reduced phononic coupling resulting from a larger ground state splitting compared to silicon-vacancy centers.
© 2023 IEEE
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