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Shortcut to Superconductivity: Superconducting Electronics via COMSOL Modeling b

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ISBN-13
9783030234850
Type
NA
Publication Name
NA
ISBN
9783030234850
Book Title
Shortcut to Superconductivity : Superconducting Electronics Via Comsol Modeling
Publisher
Springer International Publishing A&G
Item Length
9.3 in
Publication Year
2020
Format
Hardcover
Language
English
Illustrator
Yes
Author
Armen Gulian
Genre
Mathematics, Technology & Engineering
Topic
Superconductors & Superconductivity, Materials Science / Electronic Materials, Applied
Item Weight
21.6 Oz
Item Width
6.1 in
Number of Pages
Xvii, 276 Pages

關於產品

Product Identifiers

Publisher
Springer International Publishing A&G
ISBN-10
3030234851
ISBN-13
9783030234850
eBay Product ID (ePID)
18038763964

Product Key Features

Book Title
Shortcut to Superconductivity : Superconducting Electronics Via Comsol Modeling
Number of Pages
Xvii, 276 Pages
Language
English
Topic
Superconductors & Superconductivity, Materials Science / Electronic Materials, Applied
Publication Year
2020
Illustrator
Yes
Genre
Mathematics, Technology & Engineering
Author
Armen Gulian
Format
Hardcover

Dimensions

Item Weight
21.6 Oz
Item Length
9.3 in
Item Width
6.1 in

Additional Product Features

Number of Volumes
1 vol.
Table Of Content
1 How to handle zero resistance/infinite conductivity?.- 2 Londons' approach.- 3 Ginzburg-Landau approach.- 4 Josephson effects.- 5 SQUIDs.- 6 Time-dependent Ginzburg-Landau theory.
Synopsis
This accessible textbook offers a novel, concept-led approach to superconducting electronics, using the COMSOL Multiphysics package to help describe fundamental principles in an intuitive manner. Based on a course taught by the author and aimed primarily at engineering students, the book explains concepts in an effective yet efficient way, uncovering the "shortcut" to understanding each topic to enable readers to quickly grasp the underlying essence. The book is divided into two main parts; the first part provides a general introduction to key topics encountered in superconductivity, illustrated using COMSOL simulations based on time-dependent Ginzburg-Landau equations (considering them as given) and avoiding any deeply mathematical derivations. It includes numerous worked examples and problem sets with tips and solutions. The second part of the book is more conventional in nature, providing detailed derivations of the basic equations from first principles. This part covers more advanced topics, including the BCS-Gor'kov approach to equilibrium properties of superconductors, the derivation of kinetic equations for nonequilibrium superconductors, and the derivation of time-dependent Ginzburg-Landau equations, used as the basis for COMSOL modeling in the first part. Supported throughout by an extensive library of COMSOL Multiphysics animations, the book serves as a uniquely accessible introduction to the field for engineers and others with a less rigorous background in physics and math. However, it also features more detailed mathematical background for those wishing to delve further into the subject., This accessible textbook offers a novel, concept-led approach to superconducting electronics, using the COMSOL Multiphysics software to help describe fundamental principles in an intuitive manner. Based on a course taught by the author and aimed primarily at engineering students, the book explains concepts effectively and efficiently, uncovering the "shortcut" to understanding each topic, enabling readers to quickly grasp the underlying essence. The book is divided into two main parts; the first part provides a general introduction to key topics encountered in superconductivity, illustrated using COMSOL simulations based on time-dependent Ginzburg-Landau equations and avoiding any deeply mathematical derivations. It includes numerous worked examples and problem sets with tips and solutions. The second part of the book is more conventional in nature, providing detailed derivations of the basic equations from first principles. This part covers more advanced topics, including the BCS-Gor'kov-Eliashberg approach to equilibrium properties of superconductors, the derivation of kinetic equations for nonequilibrium superconductors, and the derivation of time-dependent Ginzburg-Landau equations, used as the basis for COMSOL modeling in the first part. Supported throughout by an extensive library of COMSOL Multiphysics animations, the book serves as a uniquely accessible introduction to the field for engineers and others with a less rigorous background in physics and mathematics. However, it also features more detailed mathematical background for those wishing to delve further into the subject., Chapter 1. What is superconductivity 1. How to handle zero resistance/infinite conductivity? 2. Londons' approach Problems in Section 2 (all problems here and below with solutions, almost all of them also have hints): 1. Describe penetration of magnetic field into superconductor. 2. Prove that screening of magnetic field in superconductors occurs at shortest possible distance. 3. Estimate the characteristic length of magnetic field penetration into the bulk superconductor. 3. Ginzburg-Landau approach Problem in Section 3: 1. Find out what is the difference between Cooper condensate and Bose condensate. 4. Josephson effects Problem in Section 4: 1. What will happen if constant voltage is applied to superconducting junctions? 5. SQUIDs Problems in Section 5: 1. Consider a hollow superconducting cylinder, and prove that magnetic flux is quantized in it. 2. When the flux is not quantized? 6. Time-dependent Ginzburg-Landau theory Problems in Section 5: 1. Using COMSOL Multiphysics, consider penetration of magnetic field into a thin superconducting disk. 2. Explore this phenomenon Using COMSOL and realize existence of two types of superconductors. 3. Using COMSOL, consider the flow of current through a thin superconducting wire: discover oscillatory regime of the current flow and explore it. 4. Using COMSOL, consider the flow of current through a thin superconducting strip: observe annihilation of Abrikosov vortices and anti-vorticies. Chapter 2. BCS-Gor'kov approach to equilibrium properties of superconductors Chapter 3. Green's function formalism in nonequilibrium case Chapter 4. Derivation of kinetic equations for nonequilibrium superconductors Chapter 5. Superconducting lasers Chapter 6. Cooling by heating Chapter 7. Derivation of time-dependent Ginzburg-Landau equations
LC Classification Number
TK7872.S8

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