Roadmap on quantum nanotechnologies

Laucht, Arne; Hohls, Frank; Ubbelohde, Niels; Gonzalez-Zalba, M. Fernando; Reilly, David J.; Stobbe, Søren; Schröder, Tim; Scarlino, Pasquale; Koski, Jonne V.; Dzurak, Andrew; Yang, Chih-Hwan; Yoneda, Jun; Kuemmeth, Ferdinand; Bluhm, Hendrik; Pla, Jarryd; Hill, Charles; Salfi, Joe; Oiwa, Akira; Muhonen, Juha T.; Verhagen, Ewold; LaHaye, M. D.; Kim, Hyun Ho; Tsen, Adam W.; Culcer, Dimitrie; Geresdi, Attila; Mol, Jan A.; Mohan, Varun; Jain, Prashant K.; Baugh, Jonathan

doi:10.1088/1361-6528/abb333

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Laucht, A., Hohls, F., Ubbelohde, N., Gonzalez-Zalba, M. F., Reilly, D. J., Stobbe, S., Schröder, T., Scarlino, P., Koski, J. V., Dzurak, A., Yang, C.-H., Yoneda, J., Kuemmeth, F., Bluhm, H., Pla, J., Hill, C., Salfi, J., Oiwa, A., Muhonen, J. T., . . . Baugh, J. (2021). Roadmap on quantum nanotechnologies. Nanotechnology, 32(16), Article 162003. https://doi.org/10.1088/1361-6528/abb333

Published in

Nanotechnology

Authors

Laucht, Arne |

Hohls, Frank |

Ubbelohde, Niels |

Gonzalez-Zalba, M. Fernando |

Reilly, David J. |

Stobbe, Søren |

Schröder, Tim |

Scarlino, Pasquale |

Koski, Jonne V. |

Dzurak, Andrew |

Yang, Chih-Hwan |

Yoneda, Jun |

Kuemmeth, Ferdinand |

Bluhm, Hendrik |

Pla, Jarryd |

Hill, Charles |

Salfi, Joe |

Oiwa, Akira |

Muhonen, Juha T. |

Verhagen, Ewold |

LaHaye, M. D. |

Kim, Hyun Ho |

Tsen, Adam W. |

Culcer, Dimitrie |

Geresdi, Attila |

Mol, Jan A. |

Mohan, Varun |

Jain, Prashant K. |

Baugh, Jonathan

Date

2021

Discipline

Nanoscience Center Nanoscience Center

Copyright

Quantum phenomena are typically observable at length and time scales smaller than those of our everyday experience, often involving individual particles or excitations. The past few decades have seen a revolution in the ability to structure matter at the nanoscale, and experiments at the single particle level have become commonplace. This has opened wide new avenues for exploring and harnessing quantum mechanical effects in condensed matter. These quantum phenomena, in turn, have the potential to revolutionize the way we communicate, compute and probe the nanoscale world. Here, we review developments in key areas of quantum research in light of the nanotechnologies that enable them, with a view to what the future holds. Materials and devices with nanoscale features are used for quantum metrology and sensing, as building blocks for quantum computing, and as sources and detectors for quantum communication. They enable explorations of quantum behaviour and unconventional states in nano- ... showmore

Publisher

Institute of Physics

ISSN Search the Publication Forum

0957-4484

Related funder(s)

Research Council of Finland

Funding program(s)

Academy Research Fellow, AoF

Additional information about funding

This work is part of the research programme of the Netherlands Organisation for Scientific Research (NWO), and supported an NWO-Vidi grant, by the European Union's Horizon 2020 research and innovation programme under Grant agreement No. 732894 (FET Proactive HOT), and by Academy of Finland Grant No. 321416

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Except where otherwise noted, this item's license is described as CC BY 4.0