Fundamentals of Terahertz Devices and Applications. Группа авторов

Fundamentals of Terahertz Devices and Applications - Группа авторов


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obtained by elliptical lenses is the one that reaches the highest possible directivity when illuminated with a spherical phase front generated by the feeding antenna.

      2.2.2 Radiation of Elliptical Lenses

Schematic illustration of (a) Equivalent aperture on top of the elliptical lens antenna. (b) Scheme of the ray tracing of the elliptical lens antenna at a point Q in the surface.

      In this section, we will derive an approximate analytical expression of these equivalent currents over a planar surface on top of the lens. This expression is valid only when the feed phase center is located in the lower focus of the ellipse and the lens surface is in the far field of the feeder. This expression can be used to perform a fast optimization of the lens and planar feeder. In order to explain this analysis method we will first evaluate the equivalent current distribution over a plane parallel to the lens aperture (i.e. that lies outside of the lens, see Figure 2.3a). The reference system used to evaluate the radiation patterns of the lens antenna is the one shown in Figure 2.3a. There are three approximations to calculate these equivalent surface currents:

      First is a GO approximation of the fields. The fields over the aperture are well‐approximated by the fields transmitted by the lens considering a locally flat surface to derive the transmission coefficients. The dyadic representation of the transmitted field to the incident field on the lens surface is:

      Second is an approximation of the equivalent currents. The equivalent electric and magnetic currents are obtained from these GO fields:

      (2.14)equation

      (2.15)equation

      which are defined for ρ < D/2 with D = 2b (twice the minor axis of the ellipse) associated with the GO field domain, and zero outside this domain.

      The third approximation relies on the fact that we assume the incident field on the lens surface images to have a spherical wave front, which is correct when the feed phase center is in the lower focus and the lens surface in the feed far field:

      (2.16)equation

      where images is the medium wave impedance. The reference system used to evaluate this field is taken at the lower focus of the elliptical lens.

      Next, we will use these approximations to express the radiation in the far‐field of the elliptical lens, when illuminated from this incident field images.

      2.2.2.1 Transmission Function images

      (2.18)equation

      where images and images are the parallel and perpendicular polarization vectors (see Figure 2.3b), and can be expressed in spherical coordinates for the on‐focus feed as:

      (2.19)equation

      (2.20)equation

      which brings to: