Add to ORKGDepending on the temperature, crystal polytype, and crystal position, two opposite schemes have been observed for the optical alignment of the populations of spin sublevels in the ground state of a Si vacancy in SiC upon irradiation with unpolarized light at frequencies of zero-phonon lines. A giant change by a factor of 2¿3 has been found in the luminescence intensity of zero-phonon lines in zero magnetic field upon absorption of microwave radiation with energy equal to the fine-structure splitting of spin sublevels of the vacancy ground state, which opens up possibilities for magnetic resonance detection at a single vacancy
© 2016, Springer-Verlag Wien.Atomic-scale colour centres in bulk and nanocrystalline SiC are promisi...
Various defect centers have displayed promise as either quantum applications, single photon emitters...
The electron spins of semiconductor defects can have complex interactions with their host, particula...
Depending on the temperature, crystal polytype, and crystal position, two opposite schemes have been...
Depending on the temperature, crystal polytype, and crystal position, two opposite schemes have been...
Results of experiments are presented that suggest that the Si vacancy in SiC is a promising quantum ...
To summarize this entire thesis, MW-assisted spectroscopy has been proposed as a promising approach ...
Silicon carbide is a very promising platform for quantum applications because of the extraordinary s...
Pump efficiency of silicon-vacancy-related spins in silicon carbide was studied. The spin population...
Les défauts ponctuels dans les matériaux à grande bande interdite font l’objet de nombreuses recherc...
Transition metal defects in SiC give rise to localized electronic states that can be optically addre...
Spins bound to point defects are increasingly viewed as an important resource for solid-state implem...
Masers as telecommunication amplifiers have been known for decades, yet their application is strongl...
We demonstrate optically pumped dynamic nuclear polarization of Si-29 nuclear spins that are strongl...
Magnetic-circular-dichroism (MCD) absorption and optically detected electron-spin-resonance (ESR) da...
© 2016, Springer-Verlag Wien.Atomic-scale colour centres in bulk and nanocrystalline SiC are promisi...
Various defect centers have displayed promise as either quantum applications, single photon emitters...
The electron spins of semiconductor defects can have complex interactions with their host, particula...
Depending on the temperature, crystal polytype, and crystal position, two opposite schemes have been...
Depending on the temperature, crystal polytype, and crystal position, two opposite schemes have been...
Results of experiments are presented that suggest that the Si vacancy in SiC is a promising quantum ...
To summarize this entire thesis, MW-assisted spectroscopy has been proposed as a promising approach ...
Silicon carbide is a very promising platform for quantum applications because of the extraordinary s...
Pump efficiency of silicon-vacancy-related spins in silicon carbide was studied. The spin population...
Les défauts ponctuels dans les matériaux à grande bande interdite font l’objet de nombreuses recherc...
Transition metal defects in SiC give rise to localized electronic states that can be optically addre...
Spins bound to point defects are increasingly viewed as an important resource for solid-state implem...
Masers as telecommunication amplifiers have been known for decades, yet their application is strongl...
We demonstrate optically pumped dynamic nuclear polarization of Si-29 nuclear spins that are strongl...
Magnetic-circular-dichroism (MCD) absorption and optically detected electron-spin-resonance (ESR) da...
© 2016, Springer-Verlag Wien.Atomic-scale colour centres in bulk and nanocrystalline SiC are promisi...
Various defect centers have displayed promise as either quantum applications, single photon emitters...
The electron spins of semiconductor defects can have complex interactions with their host, particula...