Basic Macroscopic Principles of Applied Superconductivity
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Basic Macroscopic Principles of Applied Superconductivity
Romanovskii, V.R.
Taylor & Francis Ltd
08/2021
392
Dura
Inglês
9781138541832
15 a 20 dias
560
Descrição não disponível.
1. Concepts and Principal Provisions of Fundamental and Applied Superconductivity 2. Macroscopic Electrodynamics of NonIdeal Type-II Superconductors: Isothermal Models 3. Physical Features of the Dissipative Phenomena in Superconductors in the Self-Field Modes 4. Thermo-Magnetic Phenomena in Low-Tc and High-Tc Superconductors 5. Thermo-Magnetic Phenomena in Composites Based on LTS and their Magnetic Instabilities 6. Current-Carrying Capacity of Superconducting Composites and Tapes: Formation and Destruction of Stable Current Modes 7. Thermal Phenomena in Composite Superconductors with an Ideal Voltage-Current 8. Electrophysical Features of Thermal Instabilities Occurrence in Technical Superconductors with Various Nonlinearity Types of V-I Characteristics
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Superconducting Composite;Critical Current Density;LTS and HTS superconductors;Superconducting States;Stability;External Magnetic Field;Quench;Critical State Model;Differential Resistivity;Voltage-current characteristics;Thermal Stabilization Parameter;Superconductivity;Sweep Rate;Thermo-electrodynamic features;Thermal Stabilization Conditions;Modern science;Joule Heat Release;Macroscopic principles;Thermal Perturbation;Magnetic Instability;Flux Jump;Quasi-linear Approximation;Heat Transfer Coefficient;Screening Current;Thermal Prehistory;Electric Field;Type Ii Superconductor;Normal Zone;Current Carrying Capacity;Temperature Perturbation;Superconducting Filaments;Ordinary Differential Equation;Critical Energies
1. Concepts and Principal Provisions of Fundamental and Applied Superconductivity 2. Macroscopic Electrodynamics of NonIdeal Type-II Superconductors: Isothermal Models 3. Physical Features of the Dissipative Phenomena in Superconductors in the Self-Field Modes 4. Thermo-Magnetic Phenomena in Low-Tc and High-Tc Superconductors 5. Thermo-Magnetic Phenomena in Composites Based on LTS and their Magnetic Instabilities 6. Current-Carrying Capacity of Superconducting Composites and Tapes: Formation and Destruction of Stable Current Modes 7. Thermal Phenomena in Composite Superconductors with an Ideal Voltage-Current 8. Electrophysical Features of Thermal Instabilities Occurrence in Technical Superconductors with Various Nonlinearity Types of V-I Characteristics
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Superconducting Composite;Critical Current Density;LTS and HTS superconductors;Superconducting States;Stability;External Magnetic Field;Quench;Critical State Model;Differential Resistivity;Voltage-current characteristics;Thermal Stabilization Parameter;Superconductivity;Sweep Rate;Thermo-electrodynamic features;Thermal Stabilization Conditions;Modern science;Joule Heat Release;Macroscopic principles;Thermal Perturbation;Magnetic Instability;Flux Jump;Quasi-linear Approximation;Heat Transfer Coefficient;Screening Current;Thermal Prehistory;Electric Field;Type Ii Superconductor;Normal Zone;Current Carrying Capacity;Temperature Perturbation;Superconducting Filaments;Ordinary Differential Equation;Critical Energies
