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The Resource New superconductors : from granular to high Tc, Guy Deutscher

New superconductors : from granular to high Tc, Guy Deutscher

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The item New superconductors : from granular to high Tc, Guy Deutscher represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Missouri-St. Louis Libraries.
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Creator

Deutscher, Guy

Summary: How new are the high Tc superconductors, as compared to the conventional low Tc ones? In what sense are these oxides different from regular metals in their normal state? How different is the mechanism for high Tc superconductivity from the well-known electron-phonon interaction that explains so well superconductivity in metals and alloys? What are the implications of the new features of the high Tc oxides for their practical applications? This book aims to give some answers to those questions, drawing particularly on similarities between the high Tc oxides and granular superconductors, which also present a maximum of their critical temperature near the metal-insulator transition

Language: eng

Work

Publication

Hackensack, New Jersey | London, World Scientific, ©2006

Extent: 1 online resource (xxi, 222 pages)

Contents

1. Superfluidity. 1.1. The Landau critical velocity. 1.2. Origin of the condensate. 1.3. Phase of the condensate. 1.4. Two-Fermion superfluids. 1.5. BCS superconducting metals. 1.6. Summary. 1.7. Further reading
2. Coherence length, penetration depth and critical temperature. 2.1. Origin of the coherence length in superconducting metals. 2.2. Experimental methods for the determination of the coherence length. 2.3. Experimental results for the coherence length. 2.4. Penetration depth and critical temperature. 2.5. Further reading
3. The phase transition. 3.1. Free energies. 3.2. Fluctuations. 3.3. Condensation energies. 3.4. Summary. 3.5. Further reading
4. Phase diagrams. 4.1. Granular superconductors. 4.2. Phase diagram of the cuprates. 4.3. Summary. 4.4. Further reading
5. Gap, symmetry and pseudo-gap. 5.1. The BCS s-wave gap. 5.2. Gap symmetry in the cuprates. 5.3. Superconducting gap and pseudo-gap. 5.4. Summary. 5.5. Further reading
6. Basics on vortices. 6.1. Vortices and vortex matter. 6.2. The isolated vortex. 6.3. Formation of the vortex lattice. 6.4. Vortex motion. 6.5. Probing surface currents in d-wave superconductors. 6.6. Summary. 6.7. Further reading
7. Cuprate superconductors under strong fields. 7.1. Vortex lattice melting. 7.2. Experiments on vortex phase transitions. 7.3. Summary. 7.4. Further reading
8. From fundamentals to applications. 8.1. The need for high critical temperatures and fields. 8.2. High critical temperatures. 8.3. Upper critical fields. 8.4. Practical upper temperature for superconductivity. 8.5. Further reading
9. HTS conductors and their applications. 9.1. Grain boundaries. 9.2. First and second generation wires. 9.3. Further reading

Isbn: 9786611927875

Instance

Label: New superconductors : from granular to high Tc

Title: New superconductors

Title remainder: from granular to high Tc

Statement of responsibility: Guy Deutscher

Creator

Deutscher, Guy

Subject

Genre

Electronic books

Language: eng

Summary: How new are the high Tc superconductors, as compared to the conventional low Tc ones? In what sense are these oxides different from regular metals in their normal state? How different is the mechanism for high Tc superconductivity from the well-known electron-phonon interaction that explains so well superconductivity in metals and alloys? What are the implications of the new features of the high Tc oxides for their practical applications? This book aims to give some answers to those questions, drawing particularly on similarities between the high Tc oxides and granular superconductors, which also present a maximum of their critical temperature near the metal-insulator transition

Cataloging source: CaPaEBR

http://library.link/vocab/creatorName: Deutscher, Guy

Dewey number: 537.6/23

Illustrations: illustrations

Index: index present

Language note: English

LC call number: QC611.98.C64

LC item number: D48 2006eb

Literary form: non fiction

Nature of contents

dictionaries
bibliography

http://library.link/vocab/subjectName

Copper oxide superconductors
Superconductors
High temperature superconductivity
TECHNOLOGY & ENGINEERING
Copper oxide superconductors
High temperature superconductivity
Superconductors

Label: New superconductors : from granular to high Tc, Guy Deutscher

Instantiates

New superconductors : from granular to high Tc

Publication

Hackensack, New Jersey | London, World Scientific, ©2006

Bibliography note: Includes bibliographical references and index

Carrier category: online resource

Carrier category code

Carrier MARC source: rdacarrier

Color: multicolored

Content category: text

Content type code

Content type MARC source: rdacontent

Contents: 1. Superfluidity. 1.1. The Landau critical velocity. 1.2. Origin of the condensate. 1.3. Phase of the condensate. 1.4. Two-Fermion superfluids. 1.5. BCS superconducting metals. 1.6. Summary. 1.7. Further reading -- 2. Coherence length, penetration depth and critical temperature. 2.1. Origin of the coherence length in superconducting metals. 2.2. Experimental methods for the determination of the coherence length. 2.3. Experimental results for the coherence length. 2.4. Penetration depth and critical temperature. 2.5. Further reading -- 3. The phase transition. 3.1. Free energies. 3.2. Fluctuations. 3.3. Condensation energies. 3.4. Summary. 3.5. Further reading -- 4. Phase diagrams. 4.1. Granular superconductors. 4.2. Phase diagram of the cuprates. 4.3. Summary. 4.4. Further reading -- 5. Gap, symmetry and pseudo-gap. 5.1. The BCS s-wave gap. 5.2. Gap symmetry in the cuprates. 5.3. Superconducting gap and pseudo-gap. 5.4. Summary. 5.5. Further reading -- 6. Basics on vortices. 6.1. Vortices and vortex matter. 6.2. The isolated vortex. 6.3. Formation of the vortex lattice. 6.4. Vortex motion. 6.5. Probing surface currents in d-wave superconductors. 6.6. Summary. 6.7. Further reading -- 7. Cuprate superconductors under strong fields. 7.1. Vortex lattice melting. 7.2. Experiments on vortex phase transitions. 7.3. Summary. 7.4. Further reading -- 8. From fundamentals to applications. 8.1. The need for high critical temperatures and fields. 8.2. High critical temperatures. 8.3. Upper critical fields. 8.4. Practical upper temperature for superconductivity. 8.5. Further reading -- 9. HTS conductors and their applications. 9.1. Grain boundaries. 9.2. First and second generation wires. 9.3. Further reading

Control code: 305126713

Dimensions: unknown

Extent: 1 online resource (xxi, 222 pages)

Form of item: online

Isbn: 9786611927875

Lccn: 2006299460

Media category: computer

Media MARC source: rdamedia

Media type code

Other physical details: illustrations

Specific material designation: remote

System control number: (OCoLC)305126713

Label: New superconductors : from granular to high Tc, Guy Deutscher

Publication

Bibliography note: Includes bibliographical references and index

Carrier category: online resource

Carrier category code

Carrier MARC source: rdacarrier

Color: multicolored

Content category: text

Content type code

Content type MARC source: rdacontent

Contents: 1. Superfluidity. 1.1. The Landau critical velocity. 1.2. Origin of the condensate. 1.3. Phase of the condensate. 1.4. Two-Fermion superfluids. 1.5. BCS superconducting metals. 1.6. Summary. 1.7. Further reading -- 2. Coherence length, penetration depth and critical temperature. 2.1. Origin of the coherence length in superconducting metals. 2.2. Experimental methods for the determination of the coherence length. 2.3. Experimental results for the coherence length. 2.4. Penetration depth and critical temperature. 2.5. Further reading -- 3. The phase transition. 3.1. Free energies. 3.2. Fluctuations. 3.3. Condensation energies. 3.4. Summary. 3.5. Further reading -- 4. Phase diagrams. 4.1. Granular superconductors. 4.2. Phase diagram of the cuprates. 4.3. Summary. 4.4. Further reading -- 5. Gap, symmetry and pseudo-gap. 5.1. The BCS s-wave gap. 5.2. Gap symmetry in the cuprates. 5.3. Superconducting gap and pseudo-gap. 5.4. Summary. 5.5. Further reading -- 6. Basics on vortices. 6.1. Vortices and vortex matter. 6.2. The isolated vortex. 6.3. Formation of the vortex lattice. 6.4. Vortex motion. 6.5. Probing surface currents in d-wave superconductors. 6.6. Summary. 6.7. Further reading -- 7. Cuprate superconductors under strong fields. 7.1. Vortex lattice melting. 7.2. Experiments on vortex phase transitions. 7.3. Summary. 7.4. Further reading -- 8. From fundamentals to applications. 8.1. The need for high critical temperatures and fields. 8.2. High critical temperatures. 8.3. Upper critical fields. 8.4. Practical upper temperature for superconductivity. 8.5. Further reading -- 9. HTS conductors and their applications. 9.1. Grain boundaries. 9.2. First and second generation wires. 9.3. Further reading

Control code: 305126713

Dimensions: unknown

Extent: 1 online resource (xxi, 222 pages)

Form of item: online

Isbn: 9786611927875

Lccn: 2006299460

Media category: computer

Media MARC source: rdamedia

Media type code

Other physical details: illustrations

Specific material designation: remote

System control number: (OCoLC)305126713

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