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Here the emphasis lies on the electron spin to be used as a qubit. In the third lecture series by M. Pustilnik and Leonid I. Glazman, mechanisms of low-temperature electronic transport through a quantum dot — weakly coupled to two conducting leads — are reviewed. The fourth series of lectures, by C. Beenakker, deals with a very interesting aspect of nanophysics: a peculiar property of superconducting mirrors discovered by Andreev about forty years ago and still a challenge to experimental physicists.

Quantum Dots: a Doorway to Nanoscale Physics. Strong coupling through optical positioning of a quantum dot in a photonic crystal cavity. Lee, K.

Bibliographic Information

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Gschrey, M. In situ electron-beam lithography of deterministic single-quantum-dot mesa-structures using low-temperature cathodoluminescence spectroscopy. Thompson, R. Precise nanometer localization analysis for individual fluorescent probes. Zwiller, V. Improved light extraction from emitters in high refractive index materials using solid immersion lenses.

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Download references. DMR- The authors thank Serkan Ates and Krishna Coimbatore Balram for useful discussions and early contributions to this work. They also thank Christopher Long and Santiago Solares for helpful advice regarding atomic force microscopy. The identification of any commercial product or trade name is used to foster understanding.

Such identification does not imply recommendation or endorsement or by the National Institute of Standards and Technology, nor does it imply that the materials or equipment identified are necessarily the best available for the purpose. Correspondence to Luca Sapienza or Kartik Srinivasan.

This work is licensed under a Creative Commons Attribution 4. Reprints and Permissions. Nanophotonics ACS Photonics Nature Nanotechnology ACS Nano By submitting a comment you agree to abide by our Terms and Community Guidelines. If you find something abusive or that does not comply with our terms or guidelines please flag it as inappropriate.

Advanced search. Skip to main content. Subjects Applied physics Nanoscale devices Quantum dots Single photons and quantum effects. Results QD location via photoluminescence imaging An array of metal alignment marks is fabricated on quantum-dot-containing material through a standard lift-off process before sample interrogation see Methods section. Figure 1: Optically locating single QDs. Full size image. Figure 2: Performance of the two-colour positioning technique. Figure 3: Circular dielectric gratings tailored to specific QD emitters.

Figure 4: Single-photon emission from an optimised device. Discussion There has been much progress in the development of bright QD single-photon sources in recent years, including micropillar 20 , 21 , vertical nanowire waveguide 22 , 23 , 24 , fibre-coupled microdisk 25 and photonic crystal cavity 26 geometries. Additional information How to cite this article: Sapienza, L. References 1 Michler, P. Article Google Scholar 24 Kremer, P. Article Google Scholar 26 Madsen, K. Acknowledgements L.

Ethics declarations Competing interests The authors declare no competing financial interests. Rights and permissions This work is licensed under a Creative Commons Attribution 4. About this article. Comments By submitting a comment you agree to abide by our Terms and Community Guidelines.

Quantum dots: a doorway to nanoscale physics

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