TY  - BOOK
AU  - Shrivastava,Keshav Narin
TI  - Superconductivity: elementary topics 
SN  - 9789812792143
AV  - QC611.92 .S54x 2000eb
U1  - 537.623 22
PY  - 2000///
CY  - Singapore, River Edge, NJ
PB  - World Scientific Pub. Co.
KW  - Superconductivity
KW  - Supraconductivité
KW  - TECHNOLOGY & ENGINEERING
KW  - Superconductors & Superconductivity
KW  - bisacsh
KW  - fast
KW  - Electronic books
N1  - Includes bibliographical references and indexes; 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
N2  - 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 magnetic resonance. There are appendices covering superconducting compounds, the isotope effect, symmetries, the pseudogap, relativistic superconductivity, the Cherenkov effect and soft vortices. Also included is an appendix on the quantum Hall effect. In all of the chapters, the theoretical description is supported by experimental data. Several of the topics discussed here cannot be found in the other books on this subject
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