Superconductivity: fundamentals and applications
This is the second English edition of what has become one of the definitive works on superconductivity in German -- currently in its sixth edition.
Comprehensive and easy to understand, this introductory text is written especially with the non-specialist in mind. The authors, both long-term experts in this field, present the fundamental considerations without the need for extensive mathematics, describing the various phenomena connected with the superconducting state, with liberal insertion of experimental facts and examples for modern applications.
While all fields of superconducting phenomena are dealt with in detail, this new edition pays particular attention to the groundbreaking discovery of magnesium diboride and the current developments in this field. In addition, a new chapter provides an overview of the elements, alloys and compounds where superconductivity has been observed in experiments, together with their major characteristics. The chapter on technical applications has been considerably expanded to accommodate microelectronics, while the key aspects of critical currents as well as Josephson junctions now each have their own chapter.
A 'must-have' for students and graduates.
30 pages matching cuprates in this book
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Fundamental Properties of Superconductors 7
Superconducting Elements Alloys and Compounds
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alloys amplitude atoms axis barrier BCS theory coherence length coil conductor conventional superconductors Cooper pair density Cooper pairs critical current CuO2 planes cuprates current density current-voltage characteristic decreases discussed effect electrical energy gap equation example external field Fermi Fermi energy field Ba film flux lines flux quantum fluxons frequency Gibbs function Ginzburg-Landau Hence high-temperature superconductors increasing interaction Josephson current Josephson junctions lattice layers Lett low temperatures magnetic field magnetic flux material means measurements metal normal conducting observed obtain oscillator pair wave function particle pendulum perpendicular phonons Phys pinning centers properties quasiparticle resistance resonance ring sample Sect shielding currents shown in Fig Shubnikov phase signal spatial spin SQUID super Supercond superconducting supercurrent supercurrent density theory thermal thickness transition temperature transport current tunnel junction type-II superconductors unpaired electrons upper critical field voltage vortex vortices wave function wire zero