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The Resource Alkali-doped fullerides : narrow-band solids with unusual properties, Olle Gunnarsson

Alkali-doped fullerides : narrow-band solids with unusual properties, Olle Gunnarsson

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The item Alkali-doped fullerides : narrow-band solids with unusual properties, Olle Gunnarsson 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

Gunnarsson, Olle

Summary: Alkali-doped fullerides have attracted strong interest since their production became possible about fifteen years ago. This book presents work which may solve intriguing problems arising from a variety of remarkable properties. For example, these solids are superconductors with high transition temperatures, although the similarity between the electronic and phonon energy scales should suppress superconductivity. Moreover, the Ioffe-Regel condition for electrical conductivity is strongly violated. The book shows why superconductivity is nevertheless possible, owing to a local pairing mechanism. The Ioffe-Regel condition is derived quantum-mechanically, and it is explained why the underlying assumptions are violated for fullerides and high-Tc cuprates, for example. The book treats electronic and transport properties, reviewing theoretical and experimental results. It focuses on superconductivity, electrical conductivity and metalinsulator transitions, emphasizing the electron-electron and electron-phonon interactions as well as the John-Teller effect

Language: eng

Work

Publication

River Edge, N.J., World Scientific, ©2004

Extent: 1 online resource (xvii, 282 pages)

Contents

Ch. 1. Structural properties. 1.1. Structure of the C[symbol] molecule. 1.2. Structures of some solids
ch. 2. Models and parameters. 2.1. Models of hopping. 2.2. Coulomb interaction. 2.3. Electron-phonon interaction. 2.4. Electron-plasmon coupling. 2.5. Current operator
ch. 3. Phonons and electron-phonon coupling strength. 3.1. Intramolecular modes. 3.2. Alkali phonons. 3.3. Librations. 3.4. Intermolecular modes
ch. 4. Interacting electron-phonon system. 4.1. Free molecules. 4.2. Spectral functions in metallic fullerenes. 4.3. Model calculation
ch. 5. Electronic structure. 5.1. Band structure calculations. 5.2. Tight-binding calculations. 5.3. GW calculations. 5.4. Susceptibility. 5.5. Specific heat. 5.6. Density of states. 5.7. Hall effect. 5.8. Photoemission
ch. 6. Plasmons. 6.1. Experimental results. 6.2. Plasmon dispersion. 6.3. Plasmon broadening
ch. 7. Metal-insulator transition. 7.1. Experimental results and U/W ratio. 7.2. Calculational approach: Projection Quantum Monte Carlo method. 7.3. Degeneracy dependence. 7.4. Filling dependence. 7.5. Lattice structure dependence. 7.6. Effects of electron-phonon and Hund's rule coupling. 7.7. Effects of noncubic lattice structure
ch. 8. Electrical resistivity. 8.1. Mean free path. 8.2. Resistivity saturation. 8.3. Experimental results. 8.4. Boltzmann theory of resistivity. 8.5. Beyond the Boltzmann equation. 8.6. Different classes of saturation behavior
ch. 9. Superconductivity. 9.1. Experimental results. 9.2. Retardation effects and Coulomb pseudopotential. 9.3. Local pairing. 9.4. Electronic mechanism. 9.5. Isotope effect. 9.6. Comparison with experiments
ch. 10. Discussion

Isbn: 9789812794956

Instance

Label: Alkali-doped fullerides : narrow-band solids with unusual properties

Title: Alkali-doped fullerides

Title remainder: narrow-band solids with unusual properties

Statement of responsibility: Olle Gunnarsson

Creator

Gunnarsson, Olle

Subject

Genre

Language: eng

Summary: Alkali-doped fullerides have attracted strong interest since their production became possible about fifteen years ago. This book presents work which may solve intriguing problems arising from a variety of remarkable properties. For example, these solids are superconductors with high transition temperatures, although the similarity between the electronic and phonon energy scales should suppress superconductivity. Moreover, the Ioffe-Regel condition for electrical conductivity is strongly violated. The book shows why superconductivity is nevertheless possible, owing to a local pairing mechanism. The Ioffe-Regel condition is derived quantum-mechanically, and it is explained why the underlying assumptions are violated for fullerides and high-Tc cuprates, for example. The book treats electronic and transport properties, reviewing theoretical and experimental results. It focuses on superconductivity, electrical conductivity and metalinsulator transitions, emphasizing the electron-electron and electron-phonon interactions as well as the John-Teller effect

Member of

Ebook Central Academic Complete

Cataloging source: N$T

http://library.link/vocab/creatorName: Gunnarsson, Olle

Dewey number: 537.6/23

Illustrations: illustrations

Index: index present

Language note: English

LC call number: QC611.95

LC item number: .G86 2004eb

Literary form: non fiction

Nature of contents

dictionaries
bibliography

http://library.link/vocab/subjectName

Superconductors
Superconductivity
Electric conductivity
Metal-insulator transitions
Electron-electron interactions
Electron-phonon interactions
Jahn-Teller effect
TECHNOLOGY & ENGINEERING
Electric conductivity
Electron-electron interactions
Electron-phonon interactions
Jahn-Teller effect
Metal-insulator transitions
Superconductivity
Superconductors
Supraconducteurs
Supraconductivité
Conduction électrique
Transitions métal-isolant
Interactions électron-électron
Interactions électron-phonon
Jahn-Teller, Effet

Label: Alkali-doped fullerides : narrow-band solids with unusual properties, Olle Gunnarsson

Instantiates

Alkali-doped fullerides : narrow-band solids with unusual properties

Publication

River Edge, N.J., World Scientific, ©2004

Antecedent source: unknown

Bibliography note: Includes bibliographical references (pages 261-277) 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: Ch. 1. Structural properties. 1.1. Structure of the C[symbol] molecule. 1.2. Structures of some solids -- ch. 2. Models and parameters. 2.1. Models of hopping. 2.2. Coulomb interaction. 2.3. Electron-phonon interaction. 2.4. Electron-plasmon coupling. 2.5. Current operator -- ch. 3. Phonons and electron-phonon coupling strength. 3.1. Intramolecular modes. 3.2. Alkali phonons. 3.3. Librations. 3.4. Intermolecular modes -- ch. 4. Interacting electron-phonon system. 4.1. Free molecules. 4.2. Spectral functions in metallic fullerenes. 4.3. Model calculation -- ch. 5. Electronic structure. 5.1. Band structure calculations. 5.2. Tight-binding calculations. 5.3. GW calculations. 5.4. Susceptibility. 5.5. Specific heat. 5.6. Density of states. 5.7. Hall effect. 5.8. Photoemission -- ch. 6. Plasmons. 6.1. Experimental results. 6.2. Plasmon dispersion. 6.3. Plasmon broadening -- ch. 7. Metal-insulator transition. 7.1. Experimental results and U/W ratio. 7.2. Calculational approach: Projection Quantum Monte Carlo method. 7.3. Degeneracy dependence. 7.4. Filling dependence. 7.5. Lattice structure dependence. 7.6. Effects of electron-phonon and Hund's rule coupling. 7.7. Effects of noncubic lattice structure -- ch. 8. Electrical resistivity. 8.1. Mean free path. 8.2. Resistivity saturation. 8.3. Experimental results. 8.4. Boltzmann theory of resistivity. 8.5. Beyond the Boltzmann equation. 8.6. Different classes of saturation behavior -- ch. 9. Superconductivity. 9.1. Experimental results. 9.2. Retardation effects and Coulomb pseudopotential. 9.3. Local pairing. 9.4. Electronic mechanism. 9.5. Isotope effect. 9.6. Comparison with experiments -- ch. 10. Discussion

Control code: 262845299

Dimensions: unknown

Extent: 1 online resource (xvii, 282 pages)

File format: unknown

Form of item: online

Isbn: 9789812794956

Level of compression: unknown

Media category: computer

Media MARC source: rdamedia

Media type code

Other physical details: illustrations

Quality assurance targets: not applicable

Reformatting quality: unknown

Sound: unknown sound

Specific material designation: remote

System control number: (OCoLC)262845299

Label: Alkali-doped fullerides : narrow-band solids with unusual properties, Olle Gunnarsson

Publication

Antecedent source: unknown

Bibliography note: Includes bibliographical references (pages 261-277) 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: Ch. 1. Structural properties. 1.1. Structure of the C[symbol] molecule. 1.2. Structures of some solids -- ch. 2. Models and parameters. 2.1. Models of hopping. 2.2. Coulomb interaction. 2.3. Electron-phonon interaction. 2.4. Electron-plasmon coupling. 2.5. Current operator -- ch. 3. Phonons and electron-phonon coupling strength. 3.1. Intramolecular modes. 3.2. Alkali phonons. 3.3. Librations. 3.4. Intermolecular modes -- ch. 4. Interacting electron-phonon system. 4.1. Free molecules. 4.2. Spectral functions in metallic fullerenes. 4.3. Model calculation -- ch. 5. Electronic structure. 5.1. Band structure calculations. 5.2. Tight-binding calculations. 5.3. GW calculations. 5.4. Susceptibility. 5.5. Specific heat. 5.6. Density of states. 5.7. Hall effect. 5.8. Photoemission -- ch. 6. Plasmons. 6.1. Experimental results. 6.2. Plasmon dispersion. 6.3. Plasmon broadening -- ch. 7. Metal-insulator transition. 7.1. Experimental results and U/W ratio. 7.2. Calculational approach: Projection Quantum Monte Carlo method. 7.3. Degeneracy dependence. 7.4. Filling dependence. 7.5. Lattice structure dependence. 7.6. Effects of electron-phonon and Hund's rule coupling. 7.7. Effects of noncubic lattice structure -- ch. 8. Electrical resistivity. 8.1. Mean free path. 8.2. Resistivity saturation. 8.3. Experimental results. 8.4. Boltzmann theory of resistivity. 8.5. Beyond the Boltzmann equation. 8.6. Different classes of saturation behavior -- ch. 9. Superconductivity. 9.1. Experimental results. 9.2. Retardation effects and Coulomb pseudopotential. 9.3. Local pairing. 9.4. Electronic mechanism. 9.5. Isotope effect. 9.6. Comparison with experiments -- ch. 10. Discussion

Control code: 262845299

Dimensions: unknown

Extent: 1 online resource (xvii, 282 pages)

File format: unknown

Form of item: online

Isbn: 9789812794956

Level of compression: unknown

Media category: computer

Media MARC source: rdamedia

Media type code

Other physical details: illustrations

Quality assurance targets: not applicable

Reformatting quality: unknown

Sound: unknown sound

Specific material designation: remote

System control number: (OCoLC)262845299

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