Nanostructured superconductors

Wolfgang Lang

doi:10.48550/arXiv.2310.18232

Nanostructured superconductors

Wolfgang Lang (Corresponding author)

Electronic Properties of Materials

Publications: Contribution to book › Chapter › Peer Reviewed

Abstract

The relevant length scales for superconductivity are of the order of nanometers. By confining the superconducting condensate to such dimensions, many physical properties change substantially, and novel phenomena emerge, which are absent in the pristine material. We discuss various methods of creating artificial nanostructures by top-down approaches in metallic and copper-oxide superconductors and their applications. Such nanostructures can be used to control magnetic flux quanta in superconductors, anchoring them to engineered defects to avoid dissipation, guiding their motion, or building artificial flux-quanta arrangements. Nanopatterned superconductors are essential for creating model systems for basic research and enable building almost dissipationless and ultrafast electronic devices and highly sensitive sensors.

Original language	English
Title of host publication	Encyclopedia of Condensed Matter Physics
Subtitle of host publication	(Second Edition)
Editors	Tapash Chakraborty
Place of Publication	Oxford
Publisher	Elsevier Academic Press
Pages	368-380
Number of pages	13
Volume	3
ISBN (Print)	978-0-323-91408-6
DOIs	https://doi.org/10.48550/arXiv.2310.18232 https://doi.org/10.1016/B978-0-323-90800-9.00014-7
Publication status	Published - 2024

Austrian Fields of Science 2012

103033 Superconductivity
210006 Nanotechnology

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abstract = "The relevant length scales for superconductivity are of the order of nanometers. By confining the superconducting condensate to such dimensions, many physical properties change substantially, and novel phenomena emerge, which are absent in the pristine material. We discuss various methods of creating artificial nanostructures by top-down approaches in metallic and copper-oxide superconductors and their applications. Such nanostructures can be used to control magnetic flux quanta in superconductors, anchoring them to engineered defects to avoid dissipation, guiding their motion, or building artificial flux-quanta arrangements. Nanopatterned superconductors are essential for creating model systems for basic research and enable building almost dissipationless and ultrafast electronic devices and highly sensitive sensors.",

author = "Wolfgang Lang",

year = "2024",

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language = "English",

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AB - The relevant length scales for superconductivity are of the order of nanometers. By confining the superconducting condensate to such dimensions, many physical properties change substantially, and novel phenomena emerge, which are absent in the pristine material. We discuss various methods of creating artificial nanostructures by top-down approaches in metallic and copper-oxide superconductors and their applications. Such nanostructures can be used to control magnetic flux quanta in superconductors, anchoring them to engineered defects to avoid dissipation, guiding their motion, or building artificial flux-quanta arrangements. Nanopatterned superconductors are essential for creating model systems for basic research and enable building almost dissipationless and ultrafast electronic devices and highly sensitive sensors.

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U2 - 10.48550/arXiv.2310.18232

DO - 10.48550/arXiv.2310.18232

M3 - Chapter

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VL - 3

SP - 368

EP - 380

BT - Encyclopedia of Condensed Matter Physics

A2 - Chakraborty, Tapash

PB - Elsevier Academic Press

CY - Oxford

ER -

Nanostructured superconductors

Abstract

Austrian Fields of Science 2012

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FLUXPIN: Fluxon manipulation by nanoscale artificial pinning lattices in cuprate superconductors

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Nanostructured superconductors

Abstract

Austrian Fields of Science 2012

Access to Document

Other files and links

Fingerprint

Projects

FLUXPIN: Fluxon manipulation by nanoscale artificial pinning lattices in cuprate superconductors

Cite this