Joop Hendriks
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View article: Vanadium in silicon carbide: telecom-ready spin centres with long relaxation lifetimes and hyperfine-resolved optical transitions
Vanadium in silicon carbide: telecom-ready spin centres with long relaxation lifetimes and hyperfine-resolved optical transitions Open
Vanadium in silicon carbide (SiC) is emerging as an important candidate system for quantum technology due to its optical transitions in the telecom wavelength range. However, several key characteristics of this defect family including thei…
View article: Vanadium color centers in silicon carbide for quantum-telecommunication in the O-Band
Vanadium color centers in silicon carbide for quantum-telecommunication in the O-Band Open
This thesis reports on research that focuses on vanadium impurities in silicon carbide, and in particular on properties that are important for application as a qubit. Contrary to many other material systems, these impurities emit light in …
View article: Quantum communication networks with defects in silicon carbide
Quantum communication networks with defects in silicon carbide Open
Quantum communication promises unprecedented communication capabilities enabled by the transmission of quantum states of light. However, current implementations face severe limitations in communication distance due to photon loss. Silicon …
View article: Broadband single-mode planar waveguides in monolithic 4H-SiC
Broadband single-mode planar waveguides in monolithic 4H-SiC Open
Color-center defects in silicon carbide promise opto-electronic quantum applications in several fields, such as computing, sensing, and communication. In order to scale down and combine these functionalities with the existing silicon devic…