Quantum theory of conducting matter: Superconductivity

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Superconductivity is the most striking phenomenon in solid state physics. The electrical resistance normally arising from impurities and the phonons in a metal suddenly drops to zero below a critical temperature Tc. Not all elemental metals show superconductivity, which suggests that the phenomenon depends on the lattice structure and Fermi surface. The cause of the superconductivity is found to be the phonon-exchange attraction.

Quantum Theory of Conducting Matter: Superconductivity targets scientists, researchers and second-year graduate-level students focused on experimentation in the field of condensed matter physics, solid state physics, superconductivity and the Quantum Hall Effect. Many worked out problems are included in the book to aid the reader's comprehension of the subject.

The following superconducting properties are covered and microscopically explained in this book:

  • zero resistance
  • Meissner effect
  • flux quantization
  • Josephson effect
  • excitation energy gap

Shigeji Fujita and Kei Ito are authors of Quantum Theory of Conducting Matter: Newtonian Equations of Motion for a Bloch Electron, predecessor to this book on superconductivity.

Author(s): Shigeji Fujita, Kei Ito, Salvador Godoy (auth.)
Edition: 1
Publisher: Springer-Verlag New York
Year: 2009

Language: English
Pages: 298
Tags: Quantum Physics;Quantum Information Technology, Spintronics;Elementary Particles, Quantum Field Theory;Quantum Optics

Front Matter....Pages i-xxiii
Superconductors–Introduction....Pages 1-13
Electron–Phonon Interaction....Pages 15-27
The BCS Ground State....Pages 29-43
The Energy Gap Equations....Pages 45-60
Quantum Statistics of Composites....Pages 61-71
Quantum Statistical Theory....Pages 73-88
Quantum Tunneling....Pages 89-101
Compound Superconductors....Pages 103-111
Supercurrents and Flux Quantization....Pages 113-129
Ginzburg-Landau Theory....Pages 131-141
Josephson Effects....Pages 143-155
High Temperature Superconductors....Pages 157-171
Doping Dependence of T c ....Pages 173-179
The Susceptibility in Cuprates....Pages 181-191
d -Wave Cooper Pair....Pages 193-196
Transport Properties Above T c ....Pages 197-206
Other Theories....Pages 207-218
Summary and Remarks....Pages 219-225
Back Matter....Pages 227-249