Quantum Interference of Resonance Fluorescence from Germanium-Vacancy Color Centers in Diamond.
Disheng ChenJohannes E FröchShihao RuHongbing CaiNaizhou WangGiorgio AdamoJohn ScottFuli LiNikolay ZheludevIgor AharonovichWei-Bo GaoPublished in: Nano letters (2022)
Resonance fluorescence from a quantum emitter is an ideal source to extract indistinguishable photons. By using the cross-polarization to suppress the laser scattering, we observed resonance fluorescence from GeV color centers in diamond at cryogenic temperature. The Fourier-transform-limited line width emission with T 2 /2 T 1 ∼ 0.86 allows for two-photon interference based on single GeV color center. Under pulsed excitation, the separated photons exhibit a Hong-Ou-Mandel quantum interference above classical limit, whereas the continuous-wave excitation leads to a coalescence time window of 1.05 radiative lifetime. In addition, we demonstrated a single-shot readout of spin states with a fidelity of 74%. Our experiments lay down the foundation for building a quantum network with GeV color centers in diamond.