Roadmap on quantum nanotechnologies

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 part...

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Published in:	Nanotechnology Vol. 32; no. 16; pp. 162003 - 162049
Main Authors:	Laucht, Arne, Hohls, Frank, Ubbelohde, Niels, Fernando Gonzalez-Zalba, M, 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
Format:	Journal Article
Language:	English
Published:	England IOP Publishing 16.04.2021
Subjects:	nanotechnology quantum computing quantum electrodynamics quantum phenomena
ISSN:	0957-4484, 1361-6528, 1361-6528
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Abstract	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- and opto-mechanical systems, low-dimensional systems, molecular devices, nano-plasmonics, quantum electrodynamics, scanning tunnelling microscopy, and more. This rapidly expanding intersection of nanotechnology and quantum science/technology is mutually beneficial to both fields, laying claim to some of the most exciting scientific leaps of the last decade, with more on the horizon.
AbstractList	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- and opto-mechanical systems, low-dimensional systems, molecular devices, nano-plasmonics, quantum electrodynamics, scanning tunnelling microscopy, and more. This rapidly expanding intersection of nanotechnology and quantum science/technology is mutually beneficial to both fields, laying claim to some of the most exciting scientific leaps of the last decade, with more on the horizon.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- and opto-mechanical systems, low-dimensional systems, molecular devices, nano-plasmonics, quantum electrodynamics, scanning tunnelling microscopy, and more. This rapidly expanding intersection of nanotechnology and quantum science/technology is mutually beneficial to both fields, laying claim to some of the most exciting scientific leaps of the last decade, with more on the horizon. 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- and opto-mechanical systems, low-dimensional systems, molecular devices, nano-plasmonics, quantum electrodynamics, scanning tunnelling microscopy, and more. This rapidly expanding intersection of nanotechnology and quantum science/technology is mutually beneficial to both fields, laying claim to some of the most exciting scientific leaps of the last decade, with more on the horizon.
Author	Dzurak, Andrew Yang, Chih-Hwan Yoneda, Jun Culcer, Dimitrie Mohan, Varun Bluhm, Hendrik Oiwa, Akira Muhonen, Juha T Schröder, Tim Ubbelohde, Niels Mol, Jan A Reilly, David J Laucht, Arne Koski, Jonne V Kim, Hyun Ho Tsen, Adam W Geresdi, Attila Fernando Gonzalez-Zalba, M Salfi, Joe Verhagen, Ewold Hohls, Frank Stobbe, Søren Jain, Prashant K Kuemmeth, Ferdinand LaHaye, M D Hill, Charles Pla, Jarryd Baugh, Jonathan Scarlino, Pasquale
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Snippet	Quantum phenomena are typically observable at length and time scales smaller than those of our everyday experience, often involving individual particles or...
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SubjectTerms	nanotechnology quantum computing quantum electrodynamics quantum phenomena
Title	Roadmap on quantum nanotechnologies
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