As shown by H. G. Booker in 1946, from
Babinet's principle in optics a slot in a metal plate or waveguide has the same
radiation pattern as a driven rod antenna whose rod is the same shape as the slot, with the exception that the
electric field and
magnetic field directions are interchanged; the antenna is a magnetic dipole instead of an electric dipole; the magnetic field is parallel to the long axis of the slot and the electric field is perpendicular. Thus the radiation pattern of a slot can be calculated by the same well-known equations used for rod element antennas like the
dipole. The waves are linearly polarized perpendicular to the slot axis. Slots up to a wavelength long have a single main lobe with maximum radiation perpendicular to the surface. Antennas consisting of multiple parallel slots in a waveguide are widely used
array antennas. They have a radiation pattern similar to a corresponding linear array of dipole antennas, with the exception that the slot can only radiate into the space on one side of the waveguide surface, 180° of the surrounding space. There are two widely used types: ; Longitudinal slotted waveguide antenna: The slots' axis is parallel to the axis of the waveguide. This has a radiation pattern similar to a
collinear dipole antenna, and is usually mounted vertically. The radiation pattern is almost
omnidirectional in the horizontal plane perpendicular to the antenna over the 180° azimuth in front of the slot, but narrow in the vertical plane, with the vertical gain increasing approximately 3 dB with each doubling of the number of slots. The radiation is horizontally polarized. It is used for vertical omnidirectional transmitting antennas for UHF television stations. For broadcasting, a cylindrical or semicircular waveguide is sometimes used with several columns of slots cut in different sides to give an omnidirectional 360° radiation pattern. ; Transverse slotted waveguide antenna: The slots are almost perpendicular to the axis of the waveguide but skewed at a small angle, with alternate slots skewed at opposite angles. This radiates a dipole pattern in the plane perpendicular to the antenna, and a very sharp beam in the plane of the antenna. Its largest use is for microwave
marine radar antennas. The antenna is mounted horizontally on a mechanical drive that rotates the antenna about a vertical axis, scanning the antenna's vertical fan-shaped beam 360° around the water surface surrounding the ship out to the horizon with each revolution. The wide vertical spread of the beam ensures that even in bad weather when the ship and the antenna axis is being rocked over a wide angle by waves the radar beam will not miss the surface. A
radial line slot antenna is a planar slotted-waveguide array in which slots are fed by a radial waveguide. It was invented by Naohisa Goto, professor emeritus at the
Tokyo Institute of Technology, and has been used as a high-efficiency planar antenna for satellite broadcast reception; a lightweight honeycomb-structure version was reported for space use and was also used as a high-gain antenna on
Hayabusa2. ==History==