Horn antenna and lens for horn antenna

The invention claimed is: 1. A lens for a horn antenna, comprising: a generally flared plate assembly extending generally along an axis from a first side to a second side opposite the first side, the generally flared plate assembly defining a plurality of non-linear channels that are operable to manipulate an electromagnetic wave received at the first side to provide a manipulated electromagnetic wave at the second side; each non-linear channel of the plurality of non-linear channels respectively including a first opening at the first side and a second opening at the second side; the first openings of the plurality of non-linear channels separated from each other; the second openings of the plurality of non-linear channels separated from each other; and the plurality of non-linear channels having different linear lengths, but substantially the same physical lengths. 2. The lens of claim 1 , wherein the plurality of non-linear channels are arranged such that: when the electromagnetic wave received at the first side comprises a generally planar wavefront, the manipulated electromagnetic wave at the second side comprises a generally planar wavefront. 3. The lens of claim 1 , wherein the plurality of non-linear channels are disposed generally symmetrically about the axis. 4. The lens of claim 3 , wherein a width of the first opening defined perpendicular to the axis is smaller than a width of the second opening defined perpendicular to the axis. 5. The lens of claim 4 , wherein the plurality of non-linear channels comprises: a first plurality of non-linear channels arranged on one side of the axis; and a second plurality of non-linear channels arranged on another side of the axis. 6. The lens of claim 5 , wherein for each non-linear channel of the first plurality of non-linear channels, a center of the first opening and a center of the second opening can be connected by a straight line that extends at a non-zero angle to the axis, wherein the straight lines of the first plurality of non-linear channels are arranged at different angles with respect to the axis in such a way that straight line associated with non-linear channel closer to the axis is at a smaller angle to the axis than straight line associated with non-linear channel further away from the axis. 7. The lens of claim 6 , wherein the generally flared plate assembly comprise a plurality of plates that define the plurality of non-linear channels, the plurality of plates comprises: a first plate extending at a non-zero angle to the axis, a second plate extending a non-zero angle to the axis, and a plurality of intermediate plates arranged between the first plate and the second plate; wherein the first plate and the second plate together define a first width perpendicular to the axis on the first side and a second width perpendicular to the axis on the second side; and wherein the first width is smaller than the second width. 8. The lens of claim 7 , wherein each of the plurality of intermediate plates respectively includes: a first end arranged at the first side, a second end at the second side, a first surface extending between the first and second ends, and a second surface opposite the first surface and extending between the first and second ends. 9. The lens of claim 8 , wherein the first surface of each of the plurality of intermediate plates comprises a wavy surface; and wherein the second surface of each of the plurality of intermediate plates comprises a wavy surface. 10. The lens of claim 9 , wherein for at least some of the plurality of intermediate plates, the wavy surfaces of the same intermediate plate have generally the same wavy shape. 11. The lens of claim 10 , wherein for at least some of the plurality of intermediate plates, the wavy surfaces of different intermediate plates have different wavy shapes. 12. The lens of claim 11 , wherein the wavy surfaces are defined by a cosine-based function ƒ n (x)=α n cos(ω n x), where n is an identifier of the intermediate plate, α n is amplitude, ω n is angular frequency. 13. The lens of claim 8 , wherein the first ends of the plurality of intermediate plates are arranged on substantially a same first plane that is arranged generally perpendicular to the axis, wherein the second ends of the plurality of intermediate plates are arranged on substantially a same second plane that is arranged generally perpendicular to the axis, and wherein the first and second planes are generally parallel. 14. The lens of claim 8 , wherein each of the plurality of intermediate plates respectively further includes: a third end extending between the first and second ends, and a fourth end opposite the third end and extending between the first and second ends. 15. The lens of claim 14 , wherein the third ends of the plurality of intermediate plates are arranged on substantially a same first third plane that is parallel to the axis, wherein the fourth ends of the plurality of intermediate plates are arranged on substantially a same fourth plane that is parallel to the axis, and wherein the same third plane and the same fourth plane are generally parallel. 16. The lens of claim 14 , wherein for each of the plurality of intermediate plates, a distance between the third and fourth ends defines a height of the intermediate plate, and wherein the heights of intermediate plates are generally the same. 17. The lens of claim 9 , wherein the first surface of each of the plurality of intermediate plates is a metallic surface; and wherein the second surface of each of the plurality of intermediate plates is a metallic surface. 18. The lens of claim 7 , wherein the plurality of plates are made entirely of metal. 19. The lens of claim 7 , further comprising a support for supporting the plurality of plates in place. 20. The lens of claim 1 , wherein the generally flared plate assembly defines an envelope shaped generally as a trapezoidal prism with a short base at the first side and a long base at the second side. 21. A horn antenna comprising: a lens of claim 1 ; and a power divider assembly operably connected with the lens. 22. The horn antenna of claim 21 , further comprising: a waveguide; and a flange connected between the waveguide and the power divider assembly. 23. The horn antenna of claim 21 , wherein the power divider assembly comprises one or more power dividers arranged to manipulate an electromagnetic wave from a source to provide a manipulated electromagnetic wave to the lens. 24. The horn antenna of claim 21 , wherein the power divider assembly and the lens extend generally along the axis of the generally flared plate assembly, wherein the lens defines a first height perpendicular to the axis, wherein the power divider assembly defines a second height perpendicular to the axis, and wherein the first height and the second height are substantially the same. 25. The horn antenna of claim 21 , wherein the power divider assembly and the lens extend generally along the axis of the generally flared plate assembly, wherein the lens has a first height perpendicular to the axis, and wherein the power divider assembly has a first portion with a second height smaller than the first height and perpendicular to the axis, and a second portion transitioning from the first portion to the lens. 26. The horn antenna of claim 25 , wherein the second portion is a