Superconductivity : elementary topics /

This book describes the elementary concepts of superconductivity and discusses the topics of flux-lattice melting, magnetization including the para-Meissner effect, microwave absorption, a.c. resistivity along with the London penetration depth, the Mössbauer effect, levitation, fractals and nuclear...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Shrivastava, Keshav Narin
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Singapore ; River Edge, NJ : World Scientific Pub. Co., ©2000.
Temas:
Superconductivity.
Supraconductivité.
TECHNOLOGY & ENGINEERING > Superconductors & Superconductivity.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Introduction. 1.1. General properties. 1.2. Bosons. 1.3. Fermions. 1.4. Perturbation theory. 1.5. B.C.S. theory. 1.6. Hybridization with a localized band
  • 2. Flux quantization. 2.1. Josephson's discovery. 2.2. Flux quantum. 2.3. Fluxoid quantization in valence bonds. 2.4. Flux creep. 2.5. Fractional flux
  • 3. Flux lattices. 3.1. Ginzburg-Landau model. 3.2. Abrikosov vortices. 3.3. Flux-lattice melting
  • 4. Magnetization. 4.1. Magnetization of a type-II superconductor. 4.2. Para-Meissner effect
  • 5. Microwave absorption. 5.1. Electron spin resonance. 5.2. E.S.R. in a superconductor. 5.3. Microwave absorption. 5.4. Power absorption in one d.c. and one a.c. coil. 5.5. Observation of microwave absorption
  • 6. Surface resistance. 6.1. Surface resistance. 6.2. Penetration depth. 6.3. Experimental results. 6.4. Electric field effect. 6.5. Electric fields in Ginzburg-Landau model
  • 7. Mossbauer effect. 7.1. The [symbol]-decay schemes. 7.2. Mössbauer effect. 7.3. Second-order Doppler shift. 7.4. Isomer shift. 7.5. Recoilless fraction in a superconductor. 7.6. Second-order Doppler shift. 7.7. Goldanski-Karyagin effect
  • 8. Levitation. 8.1. Dipole-dipole interaction. 8.2. Magnetic energy. 8.3. Quantized levitation. 8.4. Measurement of force between a magnet and a superconductor
  • 9. Fractals. 9.1. Critical exponents. 9.2. Dimensionality of a fractal. 9.3. Debye-Waller factor. 9.4. Light scattering. 9.5. Measurements of fractional dimensions. 9.6. Fractal upper critical field. 9.7. Fractal flux lattice melting. 9.8. Fractal growth of magnetic field
  • 10. Nuclear magnetic resonance. 10.1. Nuclear magnetic resonance. 10.2. Knight shift. 10.3. Nuclear relaxation. 10.4. Coherence length and susceptibility. 10.5. Structure factors. 10.6. Experimental relaxation rates. 10.7. Nuclear relaxation in mixed-wave superconductors. 10.8. Nuclear relaxation measurements.

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