Introduction to Advanced Electrodynamics - Mukhopadhyay, Soumik

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Résumé :
This book summarizes the basics of electricity and magnetism prior to covariant formulation of Maxwell's equations. The book works out the basics of special relativity and then applies the covariant formalism to understand radiation, both in vacuum and in material medium. The emphasis is on cleaner mathematical formalism based on experimental facts. The book contains many problems/exercises which will help the students to understand the basics of the subject. The difference between the present book with existing books of this level lies in the presentation of the topics and the subjects chosen. Instead of presenting a lot of material related to electromagnetism, it presents some very important but selected problems of advanced electromagnetism to students who are learning it for the first time. This book is aimed at graduate/advanced graduate students who have done at least one basic level course in electricity and magnetism.?...

Biographie:
Dr. Kaushik Bhattacharya obtained his doctoral degree at the Saha Institute of Nuclear Physics, Kolkata. Subsequently he carried out postdoctoral research in Physical Research Laboratory (PRL), Ahmedabad and Instituto de Ciencias Nucleares (ICN) in the National Autononomous University of Mexico (UNAM) in Mexico City. He is a theoretical physicist, whose chief interest lies in cosmology and quantum field theory in curved spacetime. His interests also lie in problems related with astro-particle physics and modified theories of gravity. Dr. Soumik Mukhopadhyay received his doctoral degree from Saha Institute of Nuclear Physics, Kolkata. Later on, he was in the Department of Physics, Indian Institute of Science, Bangalore as a Centenary Postdoctoral Fellow. He is an experimental physicist with research interests in the area of magnetism and strongly correlated electron systems.?...

Sommaire:
1. Chapter One: Concise summary of basic electrodynamics (a) The emperical laws, Gauss, Biot-Savart, Faraday's law and Lorentz force law (b) Dielectric medium, Magnetic medium (c) Maxwell's equation (d) Macroscopic electrodynamics (e) Poyntings theorem, Maxwell's strss tensor and conservation of energy and momentum (f) Electromagnetic wave propagation in vacuum, concept of polarization, the various polarizations (g) Propagation in medium, dielctric polarization (h) Causality and Kramer's - Kronig relations, examples (i) Spreading of wave-packets