Electromagnetic Waves and Radiating Systems by Jordan and Balmain: A Classic Textbook on Antennas and Electromagnetics
Electromagnetic Waves and Radiating Systems is a textbook written by Edward C. Jordan and Keith G. Balmain, first published in 1950 and revised in 1968. It covers the theory and applications of antennas, wave propagation, transmission lines, waveguides, and electromagnetic fields. The book is widely used as a reference and a textbook for undergraduate and graduate courses in electrical engineering.
The book is divided into four parts: Fundamentals of Electromagnetic Analysis, Electrostatics and Magnetostatics, Electromagnetic Waves, and Radiating Systems. The first part introduces the basic concepts and mathematical tools for electromagnetic analysis, such as vector analysis, Maxwell's equations, boundary value problems, and potential theory. The second part deals with the static electric and magnetic fields in various media and configurations, such as capacitors, inductors, magnetic circuits, electrostatics of conductors and dielectrics, and magnetostatics of materials. The third part covers the propagation of electromagnetic waves in free space, dielectric media, conductors, waveguides, transmission lines, resonant cavities, optical fibers, and plasmas. The fourth part focuses on the radiation of electromagnetic waves from various sources, such as dipoles, loops, apertures, arrays, horns, reflectors, lenses, microstrip antennas, helical antennas, frequency-independent antennas, and antenna measurements.
The book is known for its clear explanations, rigorous derivations, numerous examples and problems, and comprehensive coverage of topics. It also includes appendices on mathematical functions, units and constants, physical constants and material properties, Bessel functions and cylindrical coordinates, spherical harmonics and spherical coordinates, Fourier series and transforms, conformal mapping and complex variables. The book has been updated with new information and references in the second edition.
Electromagnetic Waves and Radiating Systems by Jordan and Balmain is a classic textbook that has influenced generations of students and engineers in the field of antennas and electromagnetics. It is available as an ebook from various online sources[^1^] [^2^] [^3^].
Antennas have a wide range of applications in various fields and industries. Some of the common applications of antennas are listed below:
Radio and television broadcasting: Antennas are used to transmit and receive radio and television signals over long distances. The antennas used for broadcasting are usually large and directional, such as dipole, loop, Yagi-Uda, horn, parabolic dish, and helical antennas[^1^] [^2^].
Wireless communication: Antennas are used to enable wireless communication between devices such as mobile phones, laptops, routers, satellites, radars, and radios. The antennas used for wireless communication are usually small and omnidirectional, such as whip, monopole, patch, slot, and microstrip antennas[^1^] [^2^].
Global positioning system (GPS) and navigation: Antennas are used to receive signals from GPS satellites that provide location and time information. The antennas used for GPS and navigation are usually circularly polarized and have high gain and low noise, such as patch, helical, and quadrifilar helix antennas[^1^] [^2^].
Remote sensing and biomedical applications: Antennas are used to sense physical phenomena such as temperature, pressure, humidity, motion, and biological signals. The antennas used for remote sensing and biomedical applications are usually sensitive and adaptive, such as microstrip, slot, dielectric resonator, and fractal antennas[^1^] [^3^].
Antennas are essential devices that enable the transmission and reception of electromagnetic waves in various domains. By understanding the basic principles, characteristics, types, and applications of antennas, one can design and optimize them for specific purposes. aa16f39245