Summary
Quantum networking represents an enabling technology to build distributed quantum systems through remote entanglement. It offers transformative capabilities in secure communications and constructing large-scale quantum computers. T centers in silicon emerge as a novel type of qubit for quantum networking applications, owing to their preferrable telecom optical transitions and long spin coherence times. This research endeavor seeks to investigate and control the spin-photon interface properties of device-integrated single T centers via externally applied electric fields. The knowledge and metho