Handbook of superconductivity. Characterization and applications. Volume Three /

This is the last of three volumes of the extensively revised and updated second edition of the Handbook of Superconductivity. The past twenty years have seen rapid progress in superconducting materials, which exhibit one of the most remarkable physical states of matter ever to be discovered. Superco...

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Bibliographic Details
Corporate Author:	Taylor & Francis
Other Authors:	Cardwell, David A., Larbalestier, David C., Braginski, Aleksander
Format:	eBook
Language:	English
Published:	Boca Raton, FL : CRC Press, [2023]
Edition:	Second edition.
Subjects:	SCIENCE / Physics SCIENCE / Solid State Physics TECHNOLOGY / Electricity Electronics > Materials > Handbooks, manuals, etc. Superconductors > Manufacture > Handbooks, manuals, etc. Superconductors > Chemistry > Handbooks, manuals, etc. Superconductors > Thermal properties > Handbooks, manuals, etc.
Online Access:	Connect to the full text of this electronic book

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245	0	0	\|a Handbook of superconductivity. \|p Characterization and applications. \|n Volume Three / \|c edited by David A. Cardwell, David C. Larbalestier, Aleksander I. Braginski.
250			\|a Second edition.
264		1	\|a Boca Raton, FL : \|b CRC Press, \|c [2023]
300			\|a 1 online resource (xxii, 858 pages)
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505	0		\|a ForewordPrefaceAcknowledgementsEditors-in-ChiefContributorsPart G Characterization and Modelling TechniquesG1 Introduction to Section G1: Structure/MicrostructureLance D. CooleyG1.1 X-Ray Studies: Chemical CrystallographyLance D. Cooley, Roman Gladyshevskii, and Theo SiegristG1.2 X-Ray Studies: Phase Transformations and Microstructure ChangesChristian Scheuerlein and M. Di MichielG1.3 Transmission Electron MicroscopyFumitake KametaniG1.4 An Introduction to Digital Image Analysis of SuperconductorsCharlie Sanabria and Peter J. LeeG1.5 Optical MicroscopyPavel DikoG1.6 Neutron Techniques: Flux-Line LatticeJonathan WhiteG2 Introduction to Section G2: Measurement and Interpretation of Electromagnetic PropertiesFedorG2.1 Electromagnetic Properties of SuperconductorsArchie M. CampbellG2.2 Numerical Models of the Electromagnetic Behavior of SuperconductorsFrancesco GrilliG2.3 DC Transport Critical CurrentsMarc DhallG2.4 Characterisation of the Transport Critical Current Density for Conductor ApplicationsMark J. Raine, Simon A. Keys, and Damian P. HampshireG2.5 Magnetic Measurements of Critical Current Density, Pinning, and Flux CreepMichael EistererG2.6 AC SusceptibilityCarles Navau, Nuria Del-Valle, and Alvaro SanchezG2.7 AC Losses in Superconducting Materials, Wires, and TapesMichael D. Sumption, Milan Majoros, and Edward W. CollingsG2.8 Characterization of Superconductor Magnetic Properties in Crossed Magnetic FieldsPhilippe VanderbemdenG2.9 Microwave ImpedanceAdrian PorchG2.10 Local Probes of Magnetic Field DistributionAlejandro V. Silhanek, Simon Bending, and Steve LeeG2.11 Some Unusual and Systematic Properties of Hole-Doped Cuprates in the Normal and Superconducting StatesJohn R. CooperG3 Introduction to Section G3: Thermal, Mechanical, and Other PropertiesAntony CarringtonG3.1 Thermal Properties: Specific HeatAntony CarringtonG3.2 Thermal Properties: Thermal ConductivityKamran BehniaG3.3 Thermal Properties: Thermal ExpansionChristoph MeingastG3.4 Mechanical PropertiesWilfried GoldackerG3.5 Magneto-Optical Characterization TechniquesAnatolii A. Polyanskii and David C. LarbalestierPart H ApplicationsH1 Introduction to Large Scale ApplicationsJohn H. Durrell and Mark AinslieH1.1 Electromagnet FundamentalsHarry JonesH1.2 Superconducting Magnet DesignMohamed LakrimiH1.3 MRI MagnetsMichael Parizh and Wolfgang StautnerH1.4 High-Temperature Superconducting Current LeadsAmalia BallarinoH1.5 CablesNaoyuki AmemiyaH1.6 AC and DC Power TransmissionAntonio MorandiH1.7 Fault-Current LimitersTabea ArndtH1.8 Energy StorageAhmet CansizH1.9 TransformersNicholas J. LongH1.10 Electrical Machines Using HTS ConductorsMark D. AinslieH1.11 Electrical Machines Using Bulk HTSMark D. AinslieH1.12 Homopolar MotorsArkadiy MatsekhH1.13 Magnetic SeparationJames H. P. Watson and Peter A. BeharrellH1.14 Superconducting Radiofrequency CavitiesGianluigi CiovatiH2 Introduction to Section H2: High-Frequency DevicesJohn Gallop and Horst RogallaH2.1 Microwave Resonators and FiltersDaniel E. OatesH2.2 Transmission LinesOrest G. VendikH2.3 AntennaeHeinz J. Chaloupka and Victor K. KornevH3 Introduction to Section H3: Josephson Junction DevicesJohn Gallop and Alex I. BraginskiH3.1 Josephson EffectsFrancesco TafuriH3.2 SQUIDsJaap Flokstra and Paul SeidelH3.3 BiomagnetismTilmann H. Sander ThoemmesH3.4 Nondestructive EvaluationHans-Joachim Krause, Michael Mock, and Saburo TanakaH3.5 Digital ElectronicsOleg A. MukhanovH3.6 Superconducting Analog-to-Digital ConvertersAlan M. Kadin and Oleg A. MukhanovH3.7 Superconducting QubitsBritton Plourde and Frank K. Wilhelm-MauchH4 Introduction to Radiation and Particle Detectors that Use SuperconductivityCaroline A. KilbourneH4.1 Superconducting Tunnel Junction Radiation DetectorsStephan FriedrichH4.2 Transition-Edge SensorsDouglas A. BennettH4.3 Superconducting Materials for Microwave Kinetic Inductance DetectorsBenjamin A. MazinH4.4 Metallic Magnetic CalorimetersAndreas Fleischmann, Loredana Gastaldo, Sebastian Kempf, and Christian EnssH4.5 Optical Detectors and SensorsRoman SobolewskiH4.6 Low-Noise Superconducting Mixers for the Terahertz Frequency RangeVictor Belitsky, Serguei Cherednichenko, and Dag WinklerH4.7 Applications: MetrologyJohn Gallop, Ling Hao, and Alain RofenachtGlossaryIndex
520			\|a This is the last of three volumes of the extensively revised and updated second edition of the Handbook of Superconductivity. The past twenty years have seen rapid progress in superconducting materials, which exhibit one of the most remarkable physical states of matter ever to be discovered. Superconductivity brings quantum mechanics to the scale of the everyday world. Viable applications of superconductors rely fundamentally on an understanding of these intriguing phenomena and the availability of a range of materials with bespoke properties to meet practical needs. While the first volume covers fundamentals and various classes of materials, the second addresses processing of these into various shapes and configurations needed for applications, and ends with chapters on refrigeration methods necessary to attain the superconducting state and the desired performance. This third volume starts with a wide range of methods permitting one to characterize both the materials and various end products of processing. Subsequently, diverse classes of both large scale and electronic applications are described. Volume 3 ends with a glossary relevant to all three volumes. Key Features: Covers the depth and breadth of the field Includes contributions from leading academics and industry professionals across the world Provides hands-on familiarity with the characterization methods and offers descriptions of representative examples of practical applications A comprehensive reference, the handbook is suitable for both graduate students and practitioners in experimental physics, materials science, and multiple engineering disciplines, including electronic and electrical, chemical, mechanical, metallurgy and others.
588			\|a OCLC-licensed vendor bibliographic record.
650		7	\|a SCIENCE / Physics \|2 bisacsh
650		7	\|a SCIENCE / Solid State Physics \|2 bisacsh
650		7	\|a TECHNOLOGY / Electricity \|2 bisacsh
650		0	\|a Electronics \|x Materials \|v Handbooks, manuals, etc.
650		0	\|a Superconductors \|x Manufacture \|v Handbooks, manuals, etc.
650		0	\|a Superconductors \|x Chemistry \|v Handbooks, manuals, etc.
650		0	\|a Superconductors \|x Thermal properties \|v Handbooks, manuals, etc.
700	1		\|a Cardwell, David A.
700	1		\|a Larbalestier, David C.
700	1		\|a Braginski, Aleksander.
710	2		\|a Taylor & Francis.
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