Introduction to High-Temperature SuperconductivitySpringer Science & Business Media, 24.02.2006 - 580 Seiten Drawing from physics, mechanical engineering, electrical engineering, ceramics, and metallurgy, high-temperature superconductivity (HTSC) spans nearly the entire realm of materials science. This volume presents each of those disciplines at an introductory level, such that readers will ultimately be able to read the literature in the field. |
Inhalt
10 | |
16 | |
Manufacturing Processes | 26 |
Industrial Applications | 65 |
References | 96 |
The New Superconductors | 116 |
Structure | 137 |
References | 185 |
References | 240 |
Protecting Against Damage | 349 |
AC Losses | 372 |
Transmission Lines | 397 |
Aerospace Applications | 410 |
References | 431 |
Electric Motors | 449 |
Appendix A Measurement of Critical Current | 559 |
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Häufige Begriffe und Wortgruppen
A/cm AC losses alignment Alloys anisotropy applications Argonne atoms BCS theory behavior BSCCO cable ceramic Chapter coherence length coil components composition compounds compressor conductor conventional cooling copper oxide cost crack critical current cryogenic cryogenic system CuO2 planes current density curve cycle devices electrical electrons energy engineering equilibrium example experimental Fermi level Fermi surface flux lines flux pinning fracture toughness function grain boundaries high-temperature high-temperature superconductivity HTSCs impurities industry Laboratory layers Lett liquid helium liquid nitrogen low-temperature LTSC magnetic field material measurements mechanical melting metal Nb5Sn NbTi normal operating oxygen parameters phase diagram phonons Phys Physics pressure properties ratio refrigeration sample shown in Figure silver SMES solid SQUID strain stress structure superconducting magnets tape TBCCO temperature thallium thermal tunneling type II superconductors typical unit cell voltage vortex weak-link wire YBCO