Superconducting Materials

This book presents an overview of the science of superconducting materials. It covers the fundamentals and theories of superconductivity. Subjects of special interest involving mechanisms of high temperature superconductors, tunneling, transport properties, magnetic properties, critical states, vortex dynamics, etc. are present in the book. It assists as a fundamental resource on the developed methodologies and techniques involved in the synthesis, processing, and characterization of superconducting materials. The book covers numerous classes of superconducting materials including fullerenes, borides, pnictides or iron-based chalcogen superconductors ides, alloys and cuprate oxides. Their crystal structures and properties are described. Thereafter, the book focuses on the progress of the applications of superconducting materials into superconducting magnets, fusion reactors, and accelerators and other superconducting magnets. The applications also cover recent progress in superconducting wires, power generators, powerful energy storage devices, sensitive magnetometers, RF and microwave filters, fast fault current limiters, fast digital circuits, transport vehicles, and medical applications.

Highlights recent advances in superconducting materials involving fullerenes and borides Summarizes the synthesis approaches, processing, and characterization techniques for superconducting materials Discusses the links between fundamentals and applications of superconductors

Autorentext

Dr. Yassine Slimani is a Senior Researcher at the Institute for Research and Medical Consultations (IRMC) at Imam Abdulrahman Bin Faisal University (Saudi Arabia). He obtained his PhD in Materials Physics and Applications from the University of Carthage (Tunisia). His main current research activities cover Superconductors, Advanced Nanomaterials, Magnetism, Ceramics, Magnetoelectric Composites, Multiferroic Materials, Dielectric Materials, Energy Storage Systems (supercapacitors, batteries, fuel cells,...), etc. He is interested in the energy, technological, biological, and environmental applications of these materials. Dr. Essia Hannachi obtained her PhD in Physics from the University of Carthage (Tunisia). Her research focuses on various advanced (nano)materials and their potential and real-life applications. The primary task of her scientific publications is studying the physical properties (like electrical, magnetic, dielectric, optical and mechanical properties) of diverse types of Ceramics including, Superconductor materials, Ferroelectrics, Multiferroic materials, and Magnetoelectric composites.

Klappentext

This book presents an overview of the science of superconducting materials. It covers the fundamentals and theories of superconductivity. Subjects of special interest involving mechanisms of high temperature superconductors, tunneling, transport properties, magnetic properties, critical states, vortex dynamics, etc. are present in the book. It assists as a fundamental resource on the developed methodologies and techniques involved in the synthesis, processing, and characterization of superconducting materials. The book covers numerous classes of superconducting materials including fullerenes, borides, pnictides or iron-based chalcogen superconductors ides, alloys and cuprate oxides. Their crystal structures and properties are described. Thereafter, the book focuses on the progress of the applications of superconducting materials into superconducting magnets, fusion reactors, and accelerators and other superconducting magnets. The applications also cover recent progress in superconducting wires, power generators, powerful energy storage devices, sensitive magnetometers, RF and microwave filters, fast fault current limiters, fast digital circuits, transport vehicles, and medical applications.

Inhalt

1. Superconductivity Phenomenon: Fundamentals and Theories.- 2. Transport Properties of Superconducting Materials.- 3. Magnetic Properties of Superconducting Materials.- 4. Mechanical Properties of Superconducting Materials.- 5. Type I and Type II Superconductivity.- 6. Classical Superconductors: Materials, Structures and Properties.- 7. High-Tc Cuprate Superconductors: Materials, Structures and Properties.- 8. Noncuprate Superconductors: Materials, Structures and Properties.- 9. Design of Cuprate HTS Superconductors.- 10. Fabrication Technologies of Superconducting Cables and Wires.<p