Superconductors : Materials and Applications

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Autore:	Inamuddin
Titolo:	Superconductors : Materials and Applications
Pubblicazione:	Millersville : , : Materials Research Forum LLC, , 2022
	©2022
Edizione:	1st ed.
Descrizione fisica:	1 online resource (266 pages)
Soggetto non controllato:	Science
Persona (resp. second.):	Inamuddin
Nota di contenuto:	Intro -- front-matter -- Table of Contents -- Preface -- 1 -- Basic Concepts and Properties of Superconductors -- 1. Introduction and background -- 2. History of superconductors -- 3. Superconductors vs perfect conductors -- 4. Phenomenon of superconductivity -- 4.1 Zero resistance -- 4.2 Super-electron -- 4.3 Critical temperature for superconductors -- 5. Classification of superconductors -- 6. Properties of superconductor -- 6.1 Evanesce of electrical resistance -- 6.2 Flux lines and diamagnetism -- 6.3 Flux quantization in superconductors -- 6.4 Quantum interference -- 6.5 Josephson current -- Conclusion -- References -- 2 -- Properties and Types of Superconductors -- 1. Introduction -- 1.1 The Meissner effect and superconductors -- 2. History of superconductors -- 3. Types of superconductors -- 3.1 Type I superconductors -- 3.1.1 Examples -- 3.2 Type II superconductors -- 3.2.1 Examples -- 4. Comparisons between type I and type II superconductors -- 4.1 Meissner effect -- 4.2 Conduction of electrons -- 4.3 Surface energy -- 5. Superconducting materials -- 5.1 Metal based system superconductors -- 5.2 Copper oxides (Cuprates) -- 5.3 Iron based superconductors -- 6. Properties of superconductors -- Conclusion -- References -- 3 -- Fundamentals and Properties of Superconductors -- 1. Introduction -- 2. Types of superconductors -- 2.1 Type I and II superconductors -- 2.2 Organic superconductors -- 2.3 Magnetic superconductors -- 2.4 High temperature superconductors (HTS) -- 3. Properties of superconductors -- 3.1 Zero electric resistance -- 3.2 Meissner effect -- 3.3 Transition temperature -- 3.4 Critical current -- 3.5 Persistent currents -- 3.6 Idealized diamagnetisms, flux lines, with its quantization -- 3.7 Flux quantization -- 3.8 Josephson current -- 3.9 Josephson current in a magnetic field.
	3.10 Superconducting quantum interference device (SQUID) -- 3.11 Superconductivity: A macroscopic quantum phenomenon -- 3.12 Critical magnetic field -- Conclusion -- References -- 4 -- Superconductors for Large-Scale Applications -- 1. Introduction -- 2. Meissner effect: Attribute to superconductors -- 3. Advanced power transmission system -- 4. Super conducting electrical power devices -- 5. Advanced power storage system -- 6. Modern transportation -- 7. Advanced accelerators -- 8. Magnetic resonance devices -- 8.1 Magnetic resonance imaging for medical diagnostics -- 8.2 NMR spectroscopy -- 8.3 Fast field cycle relaxometer -- 9. SQUID -- Conclusion -- References -- 5 -- Lanthanide-based Superconductor and its Applications -- 1. Introduction -- 2. Lanthanide-based superconductors -- 2.1 Preparation methods -- 2.1.1 Solid state reaction processes -- 2.1.2 Laser heating -- 2.1.3 High-pressure synthesis -- 2.2 Characterization of lanthanide-based superconductors -- 2.3 Superconducting properties of the LBSC -- 2.4 Applications of LBSC -- Conclusions -- References -- 6 -- Type I Superconductors: Materials and Applications -- 1. Introduction -- 2. Type-I superconductors -- 3. History of superconductivity -- 3.1. Quest for low temperature -- 3.2 Discovery of Helium -- 3.3 Curiosity to know the resistance of metals at absolute zero? -- 3.4 Why mercury used to measure low-temperature resistance? -- 4. Attributes of superconductors -- 4.1 Current in a superconductor coil -- 4.2 How superconductors behave in an external magnetic field? -- 4.3 Unification of electric and magnetic behaviour -- 5. Characteristics of type-I superconductors -- 5.1 Critical Temperature (TC) -- 5.2 Meissner effect or perfect diamagnetism -- 5.3 Critical magnetic field (HC) -- 5.4 Critical current (IC) -- 5.5 Isotope effect -- 5.6 Development of theories of superconductivity.
	5.6.1 London equations and penetration depth -- 5.6.2 Ginzburg and Landau theory -- 5.6.3 BCS theory -- 5.7 Breakthroughs and outcomes of theoretical research -- 6. Applications -- 7. Issues with type-I superconductors -- References -- 7 -- Bulk Superconductors: Materials and Applications -- 1. Introduction -- 2. New era of high temperature superconductor -- 3. Type-II superconductors -- 4. Characteristics of type-II superconductors -- 4.1 Critical temperature (TC) -- 4.2 Critical magnetic field (HC) -- 4.3 Meissner effect or perfect diamagnetism -- 5. Different types of bulk superconductors -- 5.1 Alloys -- 5.2 Niobium alloys -- 5.3 Oxides, cuprates and ceramics -- 5.4 Fullerenes -- 6. Applications -- 6.1 Superconductor magnets and ordinary electromagnets -- 6.2 High field magnets -- 6.3 Magnetic levitation -- 6.4 Medical applications -- 6.5 Detectors -- 6.6 Josephson junctions -- Conclusion and future outlook -- Reference -- 8 -- Soft Superconductors: Materials and Applications -- 1. Introduction -- 2. Type 1 Superconductors -- 3. Structural properties of superconductors -- 4. A3B structure superconductors -- 5. MMo6X8& -- M2A3X3 structures superconductors -- 6. Cuprate superconductors structures -- 7. Production of superconductors -- 8. Wire production -- 9. Thin films production -- 10. Superconductor applications -- Conclusion -- References -- 9 -- Oxide Superconductors -- 1. Background -- 2. Unusual properties super conducting materials and proposed theories and hypothesis -- 3. Cooper pair model -- 4. Crystal structure analysis of superconducting materials -- 5. Applications of oxide superconductor -- Conclusions -- References -- 10 -- High Temperature Superconductors: Materials and Applications -- 1. Introduction -- 2. Science of HTSC -- 3. Nickel based HTSC -- 4. HTSC for fusion reactors.
	5. HTSC magnetic energy storage for power applications -- 6. HTSC materials based on bismuth -- 7. HTSC in co-axial magnetic gear -- Conclusions -- References -- 11 -- Superconducting Metamaterials and their Applications -- 1. Superconducting materials -- 2. Metamaterials -- 2.1 Low loss metamaterials -- 2.2 Scaling of SRR properties -- 2.3 Scaling of wire array properties -- 3. Novel superconducting metamaterial implementations -- 3.1 Ferromagnet- superconductor composites -- 3.2 DC magnetic superconducting metamaterials -- 3.3 SQUID metamaterials -- 4. Superconducting photonic crystal -- 5. Thin film superconducting metamaterial -- 6. Advantages of metamaterials -- 6.1 Compact superconducting materials -- 6.2 Tuneability and nonlinearity -- 6.3 Implementations of superconducting metamaterials -- 7. Novel applications -- Conclusion -- References -- 12 -- Superconductors for Medical Applications -- 1. Introduction -- 2. Medical applications -- 2.1 Magnetic resonance imaging (MRI) -- 2.1.1 Quench protection design of MRI superconducting magnet -- 2.1.2 Open MRI superconducting magnet -- 2.1.3 MRI food inspection system -- 2.2 Magnetic gene transfer -- 2.3 Magnetic drug delivery system -- 2.4 Cancer and internal hemorrhage detection -- Conclusions -- References -- back-matter -- Keyword Index -- About the Editors -- Superconductors for Magnetic Imaging Resonance Applications -- 1. Introduction -- 2. History of superconductor materials for MRI -- 2.1 Liquid helium free SN2 high-temperature fuperconductor magnet -- 2.2 Bismuth strontium calcium copper oxide (Bi2223): First SN2-HTS magnet -- 2.3 Magnesium diboride superconductors -- 2.3.1 Challenges and prospects for MgB2 MRI magnets -- 3. Potential superconductors for MRIs -- 3.1 Nb-Ti and Nb3Sn superconductors -- 3.2 Copper based superconductors.
	3.3 Rare - earth barium copper oxide superconductors (REBCO) -- 3.4 MgB2 superconductors -- 3.5 Iron-based superconductors (IBS) -- 4. Materials' and their applications' prospects in the future -- Conclusion -- References.
Sommario/riassunto:	The book presents the current status of superconductor science and technology.
Titolo autorizzato:	Superconductors
ISBN:	9781644902110
	9781644902103
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910984634203321
Lo trovi qui:	Univ. Federico II
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Serie: Materials Research Foundations