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Practical electrodynamics with advanced applications /

This textbook covers the advanced application and techniques of electrodynamics. The book begins with an introduction to the topic, with basic notations and equations presented, before moving on to examine various topics such as electromagnetic waves in a vacuum, the theory of relativity (including...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Leble, S. B. (Sergeĭ Borisovich) (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2020]
Colección:IOP series in emerging technologies in optics and photonics.
IOP ebooks. 2020 collection.
Temas:
Acceso en línea:Texto completo

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100 1 |a Leble, S. B.  |q (Sergeĭ Borisovich),  |e author. 
245 1 0 |a Practical electrodynamics with advanced applications /  |c Sergey Leble. 
264 1 |a Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) :  |b IOP Publishing,  |c [2020] 
300 |a 1 online resource (various pagings) :  |b illustrations (some color). 
336 |a text  |2 rdacontent 
337 |a electronic  |2 isbdmedia 
338 |a online resource  |2 rdacarrier 
490 1 |a IOP series in emerging technologies in optics and photonics 
490 1 |a IOP ebooks. [2020 collection] 
500 |a "Version: 20201201"--Title page verso. 
504 |a Includes bibliographical references. 
505 0 |a 1. Introduction -- 1.1. General remarks : units -- 1.2. Inertial reference frames -- 1.3. Tensor fields 
505 8 |a 2. Basic notions and equations of electrodynamics -- 2.1. Electrodynamics in vacuum -- 2.2. Maxwell's equations in integral form -- 2.3. Initial-boundary problem for Maxwell system in vacuum -- 2.4. Vector and scalar potentials -- 2.5. Conservation principles : Poynting theorem 
505 8 |a 3. Electromagnetic waves in vacuum -- 3.1. Wave equations -- 3.2. Harmonic plane wave in vacuum without charges -- 3.3. Wave packets -- 3.4. Cauchy Problem in 1 + 1 space-time -- 3.5. Discussion and exercises -- 3.6. Inhomogeneous wave equation : wave generation -- 3.7. Emission of the isolated charged point particle -- 3.8. Emission of oscillating charged system of particles : multipole expansion 
505 8 |a 4. Theory of relativity -- 4.1. Lorentz transformation -- 4.2. Space-time geometry -- 4.3. Relativistic kinematics and four-vectors -- 4.4. Relativistic mechanics -- 4.5. Discussion -- 4.6. Exercises -- 4.7. A historical note : about a birth of new mechanics (theory of relativity) 
505 8 |a 5. Electromagnetic field in a matter -- 5.1. Definition of vectors : polarization, electric induction, magnetization and magnetic field strength--Maxwell's equations for electromagnetic field in a matter -- 5.2. Macroscopic Maxwell's equations, links to microscopic parameters -- 5.3. Classification of substances with respect to electric and magnetic properties 
505 8 |a 6. Dispersion and transport -- 6.1. Dispersion account, operator material relations -- 6.2. Discussion -- 6.3. Dispersion in dielectrics, conductors and plasma -- 6.4. Back to Ohm's law : Hall effect -- 6.5. EM waves in isotropic conducting matter case 
505 8 |a 7. Plasma -- 7.1. Plasma types -- 7.2. Propagation of waves in a plasma : example of helicoidal waves -- 7.3. The nonlinear case 
505 8 |a 8. Metamaterials -- 8.1. Research on metamaterials -- 8.2. Statement of problem : dispersion operator -- 8.3. Projecting operators -- 8.4. Separated equations and definition for left and right waves -- 8.5. Nonlinearity account -- 8.6. Wave propagation in a metamaterial within the lossless Drude dispersion and Kerr nonlinearity -- 8.7. Discussion and conclusion 
505 8 |a 9. Problems of electromagnetism in a piecewise continuous matter -- 9.1. Electro- and magneto-statics -- 9.2. Boundary conditions -- 9.3. Demagnetization field -- 9.4. Stray fields -- 9.5. Microwire : DW and observations -- 9.6. The stray field of the planar DW 
505 8 |a 10. Reflection and refraction of electromagnetic waves at a boundary -- 10.1. Reflection and transmission of a plane wave on a border -- 10.2. Problem of a plane wave with fixed frequency refraction -- 10.3. Boundary conditions impact -- 10.4. Energy density flux -- 10.5. Discussion 
505 8 |a 11. New dielectric guides techniques -- 11.1. Planar waveguides -- 11.2. Cylindrical dielectric waveguides -- 11.3. Including nonlinearity 
505 8 |a 12. Propagation of electromagnetic waves in exclusive dispersive media such as metamaterials -- 12.1. Electromagetic waves in metamaterial -- 12.2. Directed modes in rectangular waveguides : polarization, dispersion, nonlinearity -- 12.3. Boundary conditions : the transversal waveguide modes evolution -- 12.4. Rectangular waveguide filled with metamaterial : nonlinearity account 
505 8 |a 13. Plasma basic equations, waveguide formation -- 13.1. Maxwell-kinetic system -- 13.2. Waves in homogeneous plasma -- 13.3. Weakly inhomogeneous plasma -- 13.4. Plasma waveguides 
505 8 |a 14. Helicoidal and other plasma wave phenomena -- 14.1. Helicoidal waves interactions -- 14.2. Algebraic method of three-wave systems solution : solitons -- 14.3. Interaction of plasma waves 
505 8 |a 15. Diffraction in the presence of conductivity, x-rays manipulation and focusing -- 15.1. General remarks -- 15.2. Basic equations -- 15.3. Propagation of x-rays in vacuum -- 15.4. Approximation of electromagnetic field as a superposition of Gaussian beams -- 15.5. Oriented Gaussian beams method application to x-rays propagation through optical elements -- 15.6. Study of accuracy and efficiency of Gaussian beam methods -- 15.7. Numerical calculations scheme -- 15.8. The numerical simulations -- 15.9. Results for ideal lenses and the bulk defects influence 
505 8 |a 16. Magnetic field dynamics, novel aspects of a theory based on Landau-Lifshitz-Gilbert equations -- 16.1. An exchange interaction concept -- 16.2. Heisenberg network dynamics -- 16.3. Walker theory -- 16.4. Propagation of domain wall in cylindrical amorphous ferromagnetic microwire -- 16.5. Average magnetization fields and DW dynamics -- 16.6. Exact particular solutions of LLG equation 
505 8 |a 17. Condensed matter electrodynamics : equations of state by partition function -- 17.1. On derivation ab initio of an equation of state -- 17.2. Spin system and equations of state -- 17.3. Heisenberg theory -- 17.4. Para-, and ferro-magnetic matter -- 17.5. Problem of ferromagnetic state -- 17.6. Multiferroics -- 17.7. Fine particles case 
505 8 |a 18. More general material relations -- 18.1. A concept -- 18.2. Symmetry and groups -- 18.3. Euclidean and Lorentz symmetry -- 18.4. Active dielectrics -- 18.5. Flexoelectricity -- 18.6. Ferroelasticity 
505 8 |a 19. On direct and inverse problems of electrodynamics -- 19.1. Direct problem of plane wave propagation in a layered medium -- 19.2. On inverse problem -- 19.3. Data collection methods : examples -- 19.4. Inverse problems as ill-posed one 
505 8 |a 20. Advanced exercises -- 20.1. Short list of useful vector and tensor relations -- 20.2. A few definitions : curves, surfaces, integrals, etc -- 20.3. Projecting operators -- 20.4. Dressing method -- 20.5. Dielectric waveguides -- 20.6. Electromagnetic waves in metamaterials -- 20.7. Plasma confinement -- 20.8. Wave propagation at plasma -- 20.9. Refraction in presence of conductivity -- 20.10. Magnetism, a novel aspect -- 20.11. Condensed matter electrodynamics : equations of state by partition function -- 20.12. General material relations -- 20.13. Inverse problems of electrodynamics. 
520 3 |a This textbook covers the advanced application and techniques of electrodynamics. The book begins with an introduction to the topic, with basic notations and equations presented, before moving on to examine various topics such as electromagnetic waves in a vacuum, the theory of relativity (including the Lorentz transformation) and electromagnetic fields in matter. Dispersion and transport are discussed, along with wave interactions in types of plasma and metamaterials, before the problems of electromagnetism in continuous matter are reviewed, and boundary interactions are studied. The second half of the book looks at the more advanced topics, including dielectric guides techniques, further metamaterial and plasma interactions (such as Helicoidal phenomena), interactions involving conductivity and x-ray, and magnetic field dynamics. Condensed matter equations are covered along with more general matter relations, and an advanced study of the direct and inverse problems of electrodynamics closes the topic. Finally, advanced exercises are available in the final chapter. This is an excellent learning tool for students studying electrodynamics courses, and serves as a robust resource for anyone involved in the field. Part of IOP Series in Emerging Technologies in Optics and Photonics. 
521 |a Students, undergrad and grad in physics, namely electrodynamics/electromagnetism or applied electrodynamics, quantum electrodynamics, quantum field theory. 
530 |a Also available in print. 
538 |a Mode of access: World Wide Web. 
538 |a System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader. 
545 |a Professor Leble is the head of laboratory on theoretical physics at the Immanuel Kant Baltic Federal University in Kaliningrad, Russia. He is the author of 215 scientific papers, 13 printed books and has directed general and specialized courses in all areas of theoretical physics. 
588 0 |a Title from PDF title page (viewed on January 14, 2021). 
650 0 |a Electrodynamics. 
650 7 |a Electricity, electromagnetism & magnetism.  |2 bicssc 
650 7 |a SCIENCE / Physics / Magnetism.  |2 bisacsh 
710 2 |a Institute of Physics (Great Britain),  |e publisher. 
776 0 8 |i Print version:  |z 9780750325745  |z 9780750325776 
830 0 |a IOP series in emerging technologies in optics and photonics. 
830 0 |a IOP ebooks.  |p 2020 collection. 
856 4 0 |u https://iopscience.uam.elogim.com/book/978-0-7503-2576-9  |z Texto completo