Electromagnetic Mixing Formulas and Applications available in Hardcover
- Pub. Date:
- Institution of Engineering and Technology (IET)
The book discusses homogenisation principles and mixing rules for the determination of the macroscopic dielectric and magnetic properties of different types of media. The effects of structure and anisotropy are discussed in detail, as well as mixtures involving chiral and nonlinear materials. High frequency scattering phenomena and dispersive properties are also discussed.
The book includes analysis of special phenomena that the mixing process can cause, such as the difference in character between a mixture and its constituent parts. Mixing results are applied to different materials in geophysics and biology. Reference is also made to the historical perspectives of dielectric modelling. Examples are included throughout the text.
Aimed at students with research interests in electromagnetics or materials science, the book is also useful as a textbook in universities, as a handbook of mixing principles, and as a sourcebook for composite material design.
About the Author
Ari Sihvola is Professor of Electromagnetics at Helsinki University of Technology with research interests in electromagnetic theory, complex media, materials modelling, remote sensing, and radar applications. He is Vice-Chairman of the Finnish National Committee of URSI (International Union of Radio Science) and served as the Secretary of the 22nd European Microwave Conference, held in August 1992 in Espoo, Finland.
Ari received the degrees of Diploma Engineer in 1981, Licentiate of Technology in 1984 and Doctor of Technology in 1987, all in Electrical Engineering, from the Helsinki University of Technology, Finland. Besides working for HUT and the Academy of Finland, he was visiting engineer at the Research Laboratory of Electronics at the Massachusetts Institute of Technology in 1985-1986, and a visiting scientist at Pennsylvania State University in 1990-1991. In 1996, he was visiting scientist at Lund University, Sweden.
Table of Contents
- Chapter 1: Introduction
- Part I: To observe the pattern: Classical and neoclassical mixing
- Chapter 2: Physics behind the dielectric constant
- Chapter 3: Classical mixing approach
- Chapter 4: Advanced mixing principles
- Chapter 5: Anisotropic mixtures
- Chapter 6: Chiral and bi-anisotropic mixtures
- Chapter 7: Nonlinear mixtures
- Part II: To transgress the pattern: Functionalistic and modernist mixing
- Chapter 8: Difficulties and uncertainties in classical mixing
- Chapter 9: Generalised mixing rules
- Chapter 10: Towards higher frequencies
- Chapter 11: Dispersion and time-domain analysis
- Chapter 12: Special phenomena caused by mixing
- Chapter 13: Applications to natural materials
- Chapter 14: Concluding remarks