Journal
SCIENTIFIC REPORTS
Volume 5, Issue -, Pages -Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/srep09619
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Funding
- MEXT-KAKENHI Quantum Cybernetics [21101007]
- JSPS-KAKENHI [26220712, 23244079, 25620001, 23740228, 26706007, 26610077]
- JST-CREST
- JSPS-FIRST
- Project for Developing Innovation Systems of MEXT
- G-COE Program
- Research Foundation for Opto-Science and Technology
- Alexander von Humboldt Foundation
- Yamada Science Foundation
- JSPS
- DFG under the Japan - Germany Research Cooperative Program
- Nanotechnology Platform Project (Nanotechnology Open Facilities in Osaka University)'' of MEXT, Japan [F-13-OS-0017, F-14-OS-0004]
- Grants-in-Aid for Scientific Research [23740228, 25620001, 26706007, 26220712, 15F15026, 26610077] Funding Source: KAKEN
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Solid-state microcavities combining ultra-small mode volume, wide-range resonance frequency tuning, as well as lossless coupling to a single mode fibre are integral tools for nanophotonics and quantum networks. We developed an integrated system providing all of these three indispensable properties. It consists of a nanofibre Bragg cavity (NFBC) with the mode volume of under 1 mu m(3) and repeatable tuning capability over more than 20 nm at visible wavelengths. In order to demonstrate quantum light-matter interaction, we establish coupling of quantum dots to our tunable NFBC and achieve an emission enhancement by a factor of 2.7.
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