In
electromagnetics and
antenna theory,
antenna aperture or
effective area is a measure of how effective an antenna is at receiving the power of
radio waves. The aperture is defined as the area, oriented perpendicular to the direction of an incoming radio wave, which would intercept the same amount of power from that wave as is produced by the antenna receiving it. At any point, a beam of radio waves has an
irradiance or
power flux density (PFD) which is the amount of radio power passing through a unit area of one square meter. If an antenna delivers an output power of
Po watts to the load connected to its output terminals when irradiated by a uniform field of power density
PFD watts per square metre, the antenna's aperture
Aeff in square metres is given by:
- .
So the power output of an antenna in watts is equal to the power density of the radio waves in watts per square metre, multiplied by its aperture in square metres. The larger an antenna's aperture is, the more power it can collect from a given field of radio waves. To actually obtain the predicted power available
Po, the
polarization of the incoming waves must match the polarization of the antenna, and the load (receiver) must be
impedance matched to the antenna's feedpoint impedance.