Electrical and mechanical tuning of a silicon vacancy defect in SiC for quantum information technology

We develop coherent control via Stark effect over the optical transition energies of silicon monovacancy deep center in hexagonal silicon carbide. We show that this defect’s unique asymmetry properties of its piezoelectric tensor and Kramer’s degenerate high-spin ground/excited state configurations can be used to create new possibilities in quantum information technology ranging from photonic networks to quantum key distribution. We also give examples of its qubit implementations via precise electric field control.