Photonic indistinguishability of the tin-vacancy center in nanostructured diamond

Abstract

Tin-vacancy centers in diamond are promising spin-photon interfaces owing to their high quantum-efficiency, large Debye-Waller factor, and compatibility with photonic nanostructuring. Benchmarking their single-photon indistinguishability is a key challenge for future applications. Here, we report the generation of single photons with 99.7+0.3-2.5\% purity and 63(9)\% indistinguishability from a resonantly excited tin-vacancy center in a single-mode waveguide. We obtain quantum control of the optical transition with 1.71(1)-ns-long π-pulses of 77.1(8)\% fidelity. A modest Purcell enhancement factor of 12 would enhance the indistinguishability to 95\%. The greater than 100 ms spectral stability shown would then enable strings of up to 106 identical photons to be generated.