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The main topic of our experimental research is the light-matter interaction on a nanoscale. The activities cover both fundamental research as well as more applied physics. Generally speaking, the former aims at the precise investigation of well controllable isolated optical (quantum) systems in order to understand and possibly tame their interactions with each other. The latter intends to realize model systems which may be regarded as first implementations of future quantum technology devices. more
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free service for quantum random numbers follow this link.
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Recent Highlights:
- Assembly of hybrid photonic architectures from nanophotonic constituents
- Nature 480, 193–199 (2011)
- A scanning probe-based pick-and-place procedure for assembly of integrated quantum optical hybrid devices
- Review of Scientific Instruments 82(7), 073709 (2011)
- Experimental optimal maximum-confidence discrimination and optimal unambiguous discrimination of two mixed single-photon states
- Physical Review A 83(5), 050304(R) (2011)
- Ultrabright and efficient single-photon generation based on nitrogen-vacancy centres in nanodiamonds on a solid immersion lens
- New Journal of Physics 13, 055017 (2011)
- An ultrafast quantum random number generator with provably bounded output bias based on photon arrival time measurements
- Applied Physics Letters 98, 171105 (2011)
- Direct measurement of heralded single-photon statistics from a parametric down-conversion source
- Physical Review A 83, 013802 (2011)
- Fiber-Integrated Diamond-Based Single Photon Source
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Nano Letters 11, 198–202 (2011)
- Single defect centers in diamond nanocrystals as quantum probes for plasmonic nanostructures
- Opt. Express 19, 7914-7920 (2011)
- WGM microresonators: sensing, lasing and fundamental optics with microspheres
- Laser & Photonics Reviews 5, (2011)
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