Surface scattering antenna improvements

What is claimed is: 1. An antenna, comprising: a waveguide; and a plurality of subwavelength elements distributed along the waveguide with inter-element spacings less than one-third of a free-space wavelength corresponding to an operating frequency of the antenna, where the plurality of subwavelength elements have a plurality of adjustable individual electromagnetic responses to a guided wave mode of the waveguide, and the plurality of adjustable individual electromagnetic responses provide an adjustable radiation field of the antenna; wherein the waveguide includes a conducting surface, and the plurality of subwavelength elements corresponds to a plurality of conducting patches respectively positioned at least partially above a respective plurality of irises in the conducting surface; and wherein the plurality of conducting patches is configured to provide a plurality of individual radiation fields responsive to iris-intermediated couplings between the conducting patches and the guided wave mode. 2. The antenna of claim 1 , wherein the operating frequency is a microwave frequency. 3. The antenna of claim 2 , wherein the microwave frequency is a Ka or Ku band frequency. 4. The antenna of claim 2 , wherein the microwave frequency is a Ku band frequency. 5. The antenna of claim 2 , wherein the microwave frequency is a Q band frequency. 6. The antenna of claim 1 , wherein the waveguide is a two-dimensional waveguide. 7. The antenna of claim 6 , wherein the two-dimensional waveguide is a parallel plate waveguide and the conducting surface is an upper conductor of the parallel plate waveguide. 8. The antenna of claim 1 , wherein the waveguide is a one-dimensional waveguide. 9. The antenna of claim 8 , wherein the waveguide includes a closed waveguide and the conducting surface is an upper conductor of the closed waveguide. 10. The antenna of claim 1 , wherein the waveguide includes a plurality of one-dimensional waveguides composing a two-dimensional antenna aperture. 11. The antenna of claim 10 , wherein the plurality of one-dimensional waveguides is a plurality of closed waveguides and the conducting surface is one of a plurality of conducting surfaces that are respective upper conductors of closed waveguides. 12. The antenna of claim 1 , wherein the irises are rectangular irises. 13. The antenna of claim 1 , wherein the irises are slit-like irises. 14. The antenna of claim 1 , wherein the conducting patches are rectangular patches. 15. The antenna of claim 1 , further comprising: a plurality of bias voltage lines configured to provide respective bias voltages between the plurality of conducting patches and the conducting surface. 16. An antenna, comprising: a waveguide; and a plurality of subwavelength elements distributed along the waveguide with inter-element spacings less than one-third of a free-space wavelength corresponding to an operating frequency of the antenna, where the plurality of subwavelength elements are a plurality of subwavelength patch elements having a plurality of adjustable individual electromagnetic responses to a guided wave mode of the waveguide, and the plurality of adjustable individual electromagnetic responses provide an adjustable radiation field of the antenna; where the plurality of subwavelength elements includes first and second subsets of subwavelength elements having radiation patterns that are substantially orthogonal. 17. The antenna of claim 16 , wherein the first and second subsets of subwavelength elements have radiation patterns that are substantially linearly polarized and substantially orthogonal. 18. The antenna of claim 16 , wherein the first and second subsets of subwavelength elements are first and second subsets of subwavelength elements that are perpendicularly oriented. 19. The antenna of claim 18 , wherein the first and second subsets of subwavelength elements are perpendicularly oriented on a surface on the waveguide. 20. The antenna of claim 16 , wherein the first and second subsets of subwavelength elements are adjusted so that the adjustable radiation field of the antenna is a linearly-polarized radiation field. 21. The antenna of claim 16 , wherein the first and second subsets of subwavelength elements are adjusted so that the adjustable radiation field of the antenna is a circularly-polarized radiation field. 22. The antenna of claim 16 , wherein the first and second subsets of subwavelength elements are adjusted so that the adjustable radiation field of the antenna is an elliptically-polarized radiation field. 23. The antenna of claim 16 , wherein the first subset of subwavelength elements is a subset of subwavelength elements oriented at about +45° with respect to a propagation direction of the waveguide, and the second subset of subwavelength elements is a subset of subwavelength elements oriented at about −45° with respect to the propagation direction of the waveguide. 24. An antenna, comprising: a waveguide; and a plurality of subwavelength patch elements distributed along the waveguide with inter-element spacings less than one-third of a free-space wavelength corresponding to an operating frequency of the antenna, where the plurality of subwavelength patch elements have a plurality of adjustable individual electromagnetic responses to a guided wave mode of the waveguide, and the plurality of adjustable individual electromagnetic responses provide an adjustable radiation field of the antenna; wherein the waveguide includes a conducting surface, and the plurality of subwavelength elements corresponds to a plurality of conducting patches respectively positioned at least partially above a respective plurality of irises in the conducting surface; and wherein the antenna further comprises: a plurality of biasing circuits configured to provide respective bias voltages between the plurality of conducting patches and the conducting surface; a set of row control lines each addressing a row of the plurality of biasing circuits; and a set of column control lines each addressing a column of the plurality of biasing circuits. 25. The antenna of claim 24 , wherein the subwavelength patch elements are arranged in rows and columns. 26. The antenna of claim 24 , wherein each of the plurality of biasing circuits includes a switching device. 27. The antenna of claim 26 , wherein the switching device is a transistor. 28. The antenna of claim 27 , wherein the transistor is a thin-film transistor (TFT). 29. The antenna of claim 24 , wherein the plurality of biasing circuits includes a plurality of circuits mounted on the waveguide with a surface mount technology (SMT). 30. The antenna of claim 24 , wherein the biasing circuits configured to provide respective bias voltages are biasing circuits configured to provide respective AC bias voltages. 31. The antenna of claim 30 , wherein the respective AC bias voltages have minimal or zero DC offset. 32. The antenna of claim 30 , wherein the biasing circuits configured to provide AC bias voltages are biasing circuits configured to provide AC bias voltages with adjustable RMS voltage levels. 33. The antenna of claim 30 , wherein the biasing circuits configured to provide AC bias voltages are biasing circuits configured to provide AC bias voltages with adjustable