Add to ORKG© 2018 American Physical Society. The fine-structure splitting in zero magnetic field allows one to access the coherent control and manipulation of polarized spin states. Here the zero-field splitting (ZFS) of the S=3/2 silicon vacancy-related centers in 6H-SiC is explored by means of electron paramagnetic resonance and electron nuclear double resonance techniques, combined with first-principle calculations. We show that the centers not only possess significantly different absolute values of ZFS, but they also differ in their sign. This diversity is rationalized by a flattened/elongated character of their spin-density distribution, potentially alters spin-photon entanglement, and suggests these centers for qubits in the upcoming technology ...
Although silicon is a promising material for quantum computation, the degeneracy of the conduction b...
Silicon carbide is a promising platform for single photon sources, quantum bits (qubits), and nanosc...
Silicon carbide with engineered point defects is considered as very promising material for the next ...
© 2018 American Physical Society. The fine-structure splitting in zero magnetic field allows one to ...
An anomalous energy splitting of spin triplet states at zero magnetic field has recently been measur...
Nitrogen-vacancy center has proven a promising candidate in quantum information and quantum sensing ...
Quantum technologies allow us to process and transfer information differently than classical informa...
Using inelastic cotunneling spectroscopy we observe a zero field splitting within the spin triplet m...
Crystal defects can confine isolated electronic spins and are promising candidates for solid-state q...
The neutrally-charged silicon vacancy in diamond is a promising system for quantum technologies that...
This thesis investigates the electronic structure of the silicon vacancy (SiV) color center in diamo...
We demonstrate optical spin polarization of the neutrally charged silicon-vacancy defect in diamond ...
Part of the interest in topological phases of matter stems from their potentially revolutionary tec...
Spin is a quantum mechanical property that describes the magnetic orientation of elementary and comp...
Spin quantum bits (qubits) defined in semiconductor quantum dots have emerged as a promising platfor...
Although silicon is a promising material for quantum computation, the degeneracy of the conduction b...
Silicon carbide is a promising platform for single photon sources, quantum bits (qubits), and nanosc...
Silicon carbide with engineered point defects is considered as very promising material for the next ...
© 2018 American Physical Society. The fine-structure splitting in zero magnetic field allows one to ...
An anomalous energy splitting of spin triplet states at zero magnetic field has recently been measur...
Nitrogen-vacancy center has proven a promising candidate in quantum information and quantum sensing ...
Quantum technologies allow us to process and transfer information differently than classical informa...
Using inelastic cotunneling spectroscopy we observe a zero field splitting within the spin triplet m...
Crystal defects can confine isolated electronic spins and are promising candidates for solid-state q...
The neutrally-charged silicon vacancy in diamond is a promising system for quantum technologies that...
This thesis investigates the electronic structure of the silicon vacancy (SiV) color center in diamo...
We demonstrate optical spin polarization of the neutrally charged silicon-vacancy defect in diamond ...
Part of the interest in topological phases of matter stems from their potentially revolutionary tec...
Spin is a quantum mechanical property that describes the magnetic orientation of elementary and comp...
Spin quantum bits (qubits) defined in semiconductor quantum dots have emerged as a promising platfor...
Although silicon is a promising material for quantum computation, the degeneracy of the conduction b...
Silicon carbide is a promising platform for single photon sources, quantum bits (qubits), and nanosc...
Silicon carbide with engineered point defects is considered as very promising material for the next ...