For the future of optical technology as well as for fundamental physics ex-periments, it is increasingly important to make use of quantum effects. One of the most fundamental manifestations of quantum effects in optics is the existence of single photons, i.e., single particles of light. While any stream of light consists of photons, the creation of a regulated photon stream with a defined discrete number of quanta is highly demanding. A specific case is the generation of a stream of single photons by single quantum emitters. In this thesis, one of such single photon emitters, the nitrogen vacancy centre (NV centre) in diamond, will be examined. A special challenge for working with defect centres in diamond is addressing them and their contr...
We demonstrate optical coupling between a single tin-vacancy (SnV) center in diamond and a free-stan...
Optical active point defects in crystals have gained widespread attention as photonic systems that c...
Thesis (Ph.D.)--University of Washington, 2022Solid-state defect qubits are emerging as a promising ...
The realization of efficient optical interfaces for solid-state atom-like systems is an important pr...
We present the controlled creation of single nitrogen-vacancy (NV) centers via ion implantation at t...
We use focused ion beam (FIB) etching to create suspended photonic crystal cavities in diamond. Our ...
This thesis describes a series of experiments on the control of the optical properties of the nitrog...
Diamond is host to a wide variety of colour centres that show attractive optical and spin properties...
In dieser Arbeit wird das Stickstoff-Fehlstellenzentrum (NV Zentrum) in Diamant als ein solcher Einz...
Colour centres in diamond are rapidly becoming one of the leading platforms for solid-state quantum ...
Colour centres in diamond are rapidly becoming one of the leading platforms for solid-state quantum ...
This thesis demonstrates the deterministic coupling of single optically active nitrogen-vacancy (NV)...
We present two applications of a single nitrogen vacancy center in a nanodiamond as quantum probe fo...
The optically active Nitrogen-Vacancy (NV) defect in diamond holds substantial promise as a potentia...
Photonic technologies play key roles in twenty-first century technologies. In addition to their trad...
We demonstrate optical coupling between a single tin-vacancy (SnV) center in diamond and a free-stan...
Optical active point defects in crystals have gained widespread attention as photonic systems that c...
Thesis (Ph.D.)--University of Washington, 2022Solid-state defect qubits are emerging as a promising ...
The realization of efficient optical interfaces for solid-state atom-like systems is an important pr...
We present the controlled creation of single nitrogen-vacancy (NV) centers via ion implantation at t...
We use focused ion beam (FIB) etching to create suspended photonic crystal cavities in diamond. Our ...
This thesis describes a series of experiments on the control of the optical properties of the nitrog...
Diamond is host to a wide variety of colour centres that show attractive optical and spin properties...
In dieser Arbeit wird das Stickstoff-Fehlstellenzentrum (NV Zentrum) in Diamant als ein solcher Einz...
Colour centres in diamond are rapidly becoming one of the leading platforms for solid-state quantum ...
Colour centres in diamond are rapidly becoming one of the leading platforms for solid-state quantum ...
This thesis demonstrates the deterministic coupling of single optically active nitrogen-vacancy (NV)...
We present two applications of a single nitrogen vacancy center in a nanodiamond as quantum probe fo...
The optically active Nitrogen-Vacancy (NV) defect in diamond holds substantial promise as a potentia...
Photonic technologies play key roles in twenty-first century technologies. In addition to their trad...
We demonstrate optical coupling between a single tin-vacancy (SnV) center in diamond and a free-stan...
Optical active point defects in crystals have gained widespread attention as photonic systems that c...
Thesis (Ph.D.)--University of Washington, 2022Solid-state defect qubits are emerging as a promising ...