Electromagnetic Field Theory Fundamentals, Second Edition

We now understand how fields propagate in an unbounded medium as plane waves and carry energy from one point to the other, how energy is transmitted along a transmission line, and how energy is channeled through a waveguide. We will now discuss systems that not only generate electromagnetic fields but also radiate them effectively.
Maxwell s equations dictate that in order to create electromagnetic fields we require time-varying sources such as charges and currents. When the fields created by these sources are confined to propagate as awave along a transmission line or inside a waveguide, the wave is usually referred to as a guided wave. When these sources, finite in size, create waves that propagate away from them in an unbounded medium, they collectively form a radiating system, and the process is called the radiation of electromagnetic waves. The device at the end of a radiating system is referred to as a transmitting antenna (see Figure 11.1). A transmitting antenna, when fed by a transmission line as shown in Figure 11.2, is called a dipole antenna. Figure 11.3 shows a horn antenna fed by a waveguide. Among other types of antennas are a slot antenna (a slot in a large conducting plane fed by a waveguide), Figure 11.4, and a microstrip antenna (a thin patch of metal on a grounded dielectric substrate), Figure 11.5. When an antenna is used to capture the radiated energy, it is called a receiving antenna.