Affiliation: Humboldt University
- Fiber-integrated diamond-based single photon sourceTim Schröder
Institute of Physics, Humboldt Universität zu Berlin, Newtonstraße 15, D 12489 Berlin, Germany
Nano Lett 11:198-202. 2011..82. Furthermore, simultaneous excitation and re-collection through the fiber is possible by introducing a fiber-connected single emitter sensor...
- A nanodiamond-tapered fiber system with high single-mode coupling efficiencyTim Schröder
Institute of Physics, AG Nano Optik, Humboldt Universitt zu Berlin, Berlin, Germany
Opt Express 20:10490-7. 2012..The system is suitable for integrated quantum transmission experiments, two-photon interference, quantum-random-number generation and nano-magnetometry...
- A scanning probe-based pick-and-place procedure for assembly of integrated quantum optical hybrid devicesAndreas W Schell
Nano Optics, Institute of Physics, Humboldt Universitat zu Berlin, Newtonstraße 15, D 12489 Berlin, Germany
Rev Sci Instrum 82:073709. 2011..Here, we focus on nanodiamonds containing single nitrogen vacancy centers, which are particularly interesting for quantum optical experiments on the single photon and single emitter level...
- Integrated and compact fiber-coupled single-photon system based on nitrogen-vacancy centers and gradient-index lensesTim Schröder
Institute of Physics, Nano Optics, Humboldt Universitat zu Berlin, 12489 Berlin, Germany
Opt Lett 37:2901-3. 2012..The commercial availability of all components and their simple assembly allows the implementation of a low-cost single-photon system, possibly approaching single-photon count rates of 500 kcts/s...