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Nanoscience and engineering in superconductivity / Victor Moshchalkov, Roger Wördenweber, Wolfgang Lang, editors.

Contributor(s): Moshchalkov, V. V. (Victor V.) [editor] | Wördenweber, Roger [editor] | Lang, Wolfgang [editor].
Material type: materialTypeLabelBookSeries: Nanoscience and Technology.Copyright date: Heidelberg ; New York : Springer, 2010Edition: First Edition.Description: xviii, 395 pages : illustrations (some colours) ; 24 cm.ISBN: 9783642151361.Subject(s): Superconductivity | Superconductividad | Superconductors | Superconductores | Nanostructures | Nanoestructuras | Nanotechnology | Nanoscience | NanotecnologíaDDC classification: 621.35 Online resources: Publisher description
Partial contents:
Guided Vortex Motion and Vortex Ratchets in Nanostructured Superconductors -- High-T c Films: From Natural Defects to Nanostructure Engineering of Vortex Matter -- Ion Irradiation of High-Temperature Superconductors and Its Application for Nanopatterning -- Frontiers Problems of the Josephson Effect: From Macroscopic Quantum Phenomena Decay to High-T c Superconductivity -- Intrinsic Josephson Tunneling in High-Temperature Superconductors -- Stacked Josephson Junctions -- Point-Contact Spectroscopy of Multigap Superconductors -- Nanoscale Structures and Pseudogap in Under-doped High-Tc Superconductors -- Scanning Tunneling Spectroscopy of High T c Cuprates -- Scanning Tunnelling Spectroscopy of Vortices with Normal and Superconducting tips -- Surface Superconductivity Controlled by Electric Field -- Polarity-Dependent Vortex Pinning and Spontaneous Vortex–Antivortex Structures in Superconductor/Ferromagnet Hybrids -- Superconductor/Ferromagnet Hybrids: Bilayers and Spin Switching -- Interplay Between Ferromagnetism and Superconductivity.
Abstract: For emerging energy saving technologies superconducting materials with superior performance are needed. Such materials can be developed by manipulating the "elementary building blocks" through nanostructuring. For superconductivity the "elementary blocks" are Cooper pair and fluxon (vortex).
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Includes bibliographical references and index.

Guided Vortex Motion and Vortex Ratchets in Nanostructured Superconductors -- High-T c Films: From Natural Defects to Nanostructure Engineering of Vortex Matter -- Ion Irradiation of High-Temperature Superconductors and Its Application for Nanopatterning -- Frontiers Problems of the Josephson Effect: From Macroscopic Quantum Phenomena Decay to High-T c Superconductivity -- Intrinsic Josephson Tunneling in High-Temperature Superconductors -- Stacked Josephson Junctions -- Point-Contact Spectroscopy of Multigap Superconductors -- Nanoscale Structures and Pseudogap in Under-doped High-Tc Superconductors -- Scanning Tunneling Spectroscopy of High T c Cuprates -- Scanning Tunnelling Spectroscopy of Vortices with Normal and Superconducting tips -- Surface Superconductivity Controlled by Electric Field -- Polarity-Dependent Vortex Pinning and Spontaneous Vortex–Antivortex Structures in Superconductor/Ferromagnet Hybrids -- Superconductor/Ferromagnet Hybrids: Bilayers and Spin Switching -- Interplay Between Ferromagnetism and Superconductivity.

For emerging energy saving technologies superconducting materials with superior performance are needed. Such materials can be developed by manipulating the "elementary building blocks" through nanostructuring. For superconductivity the "elementary blocks" are Cooper pair and fluxon (vortex).

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