![]() Gulian founded the Laboratory of High-Temperature Superconductivity at the Physics Research Institute, Armenia – overseeing the world’s first observation of phase-slip centers in high-temperature superconductors. and postdoctoral research on non-equilibrium phenomena in superconductors and superfluids within the group of Nobel Laureate Vitaly Ginzburg.īefore setting up the Advanced Physics Laboratory for Chapman, Dr. Armen Gulian is Senior Research Scientist and Director of Chapman University’s Advanced Physics Laboratory, located in Burtonsville, Maryland. Overall, I'm very happy I found this book and I recommend it to anyone that wants to have a practical understanding of superconductors or anyone who needs to model superconducting devices.” (Maurice van der Maas, Microelectronics, Delft University of Technology)ĭr. The later chapters cover the derivations and background behind much of the physics, but these chapters are not strictly necessary to study if you need to model superconducting devices. Every simulation that is discussed has an extensive guide on how to set up COMSOL for that particular problem. I did not have trouble setting up any of the simulations. The first two chapters of the book go through all of the COMSOL modelling and cover the superconductor physics basics. It is a very fast way into effectively modelling superconductors. It is not difficult to follow, even without an extensive physics background. ![]() “Very useful book for modelling superconducting structures. This book also provides a superb introduction and guide for those of us who are beginners in this field.” (Salahuddin Nur, Department of Quantum & Computer Engineering, Delft University of Technology) But then we found this book, and it has been an indispensable resource to us ever since. Many of the problems we encounter are not trivial and we have been struggling to fully understand the underlying theory and to accurately simulate the superconducting behavior. “In our research group, we work with designing complex superconducting circuits, which requires accurate simulation/testing of the structures under consideration before practical implementation. However, it also features more detailed mathematical background for those wishing to delve further into the subject. 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. ![]() 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. ![]() The second part of the book is more conventional in nature, providing detailed derivations of the basic equations from first principles. It includes numerous worked examples and problem sets with tips and solutions. 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. 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.
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