Jakob J. van Zyl

Introduction to the Physics and Techniques of Remote Sensing


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Graph depicts polarization ellipse.

      In the special case where the ellipse collapses to a line, which happens when δhδv = with n any integer, the wave is said to be linearly polarized. Another special case is encountered when the two amplitudes are the same (ah = av) and the relative phase difference δhδv is either π/2 or −π/2. In this case, the wave is circularly polarized.

      The polarization ellipse (see Fig. 2.2) can also be characterized by two angles known as the ellipse orientation angle (ψ in Fig. 2.2, 0 ≤ ψπ) and the ellipticity angle, shown as χ (−π/4 ≤ χπ/4) in Figure 2.2. These angles can be calculated as follows:

      Note that linear polarizations are characterized by an ellipticity angle χ = 0.

      Another way to describe the polarization of a wave, particularly appropriate for the case of partially polarized waves, is through the use of the Stokes parameters of the wave. For a monochromatic wave, these four parameters are defined as

Graph depicts polarization represented as a point on the Poincaré sphere. Graph depicts linear (upper) and circular (lower) polarization.

      (2.17)equation

      These two fully polarized waves have orthogonal polarizations. This important result shows that when an antenna with a particular polarization is used to receive unpolarized radiation, the amount of power received by the antenna will be only that half of the power in the unpolarized wave that aligns with the antenna polarization. The other half of the power will not be absorbed, because its polarization is orthogonal to that of the antenna.

      The polarization states of the incident and reradiated waves play an important role in remote sensing. They provide an additional information source (in addition to the intensity and frequency) to study the properties of the radiating or scattering object. For example, at an incidence angle of 37° from vertical, an optical wave polarized perpendicular to the plane of incidence will reflect about 7.8% of its energy from a smooth water surface, while an optical wave polarized in the plane of incidence will not reflect