Surface-wave waveguide with conductive sidewalls and application in antennas

What is claimed is: 1. A surface-wave waveguide, comprising: a base conductive ground plane comprising opposite side edges; a pair of conductive side walls, one conductive side wall extending from each side edge of the base conductive ground plane; a substrate comprising a dielectric material disposed on the base conductive ground plane and between the conductive side walls; and an impedance sheet disposed on the substrate and between the conductive side walls, wherein edges of the impedance sheet contact an interior of the conductive side walls and ends of the conductive side walls are substantially planar with a surface of the impedance sheet opposite the substrate, the impedance sheet comprising a predetermined impedance characteristic for transmitting an electromagnetic wave. 2. The surface-wave waveguide of claim 1 , wherein the dielectric material comprise an air core. 3. The surface-wave waveguide of claim 1 , wherein the impedance sheet comprises an array of metallic patches. 4. The surface-wave waveguide of claim 1 , wherein the impedance sheet comprises: a plurality of metallic patches disposed adjacent one another at a predetermined distance; and a tunable impedance element connecting adjacent metallic patches. 5. The surface-wave waveguide of claim 4 , wherein the tunable impedance element comprises one of a varactor, a liquid crystal element, and a tunable material element comprising barium strontium nitrate. 6. The surface-wave waveguide of claim 4 , wherein the tunable impedance element is configured to be tuned by a voltage being connected to at least one of the adjacent metallic patches or by an electric field or a magnetic field being coupled to the tunable impedance element. 7. The surface-wave waveguide of claim 1 , wherein each conductive side wall comprises a multiplicity of vias that are electrically connected between the base conductive ground plane and a conductive strip that electrically connects each adjacent via. 8. The surface-wave waveguide of claim 1 , wherein the predetermined impedance characteristic of the impedance sheet comprises a constant impedance characteristic throughout the impedance sheet. 9. The surface-wave waveguide of claim 1 , wherein the predetermined impedance characteristic of the impedance sheet comprise a varying impedance characteristic along a length of the impedance sheet. 10. The surface-wave waveguide of claim 1 , further comprising a surface-wave coupling structure connected to one end of the surface-wave waveguide, wherein the surface-wave coupling structure is configured to transmit and receive electromagnetic waves to and from the surface-wave waveguide. 11. The surface-wave waveguide of claim 10 , wherein the surface-wave coupling structure comprises a waveguide aperture. 12. The surface-wave waveguide of claim 10 , wherein the surface-wave coupling structure comprises a waveguide feed section that matingly connects to an end of the surface-wave waveguide and a coaxial connector integrated into a wall of the waveguide feed section that receives a coaxial cable for transmitting and receiving electromagnetic waves to and from the surface-wave waveguide. 13. The surface-wave waveguide of claim 1 , further comprising a center conductor disposed within the substrate between the base conductive ground plane and the impedance sheet, the center conductor extending a length of the surface-wave waveguide. 14. The surface-wave waveguide of claim 13 , further comprising a coaxial connector electrically coupled to the center conductor, the coaxial connector being configured to receive a coaxial cable for transmitting and receiving electromagnetic waves to and from the surface-wave waveguide. 15. An antenna system, comprising: a plurality of radiating elements configured to transmit and receive electromagnetic energy, each of the radiating elements comprising a surface-wave waveguide, the surface-wave waveguide comprising: a base conductive ground plane comprising opposite side edges; a pair of conductive side walls, one conductive side wall extending from each side edge of the base conductive ground plane; a substrate comprising a dielectric material disposed on the base conductive ground plane and between the conductive side walls; and an impedance sheet disposed on the substrate and between the conductive side walls, wherein edges of the impedance sheet contact an interior of the conductive side walls and ends of the conductive side walls are substantially planar with a surface of the impedance sheet opposite the substrate, the impedance sheet comprising a predetermined impedance characteristic for transmitting an electromagnetic wave. 16. The antenna system of claim 15 , wherein the predetermined impedance characteristic of the impedance sheet comprises an impedance that periodically varies along a length of the impedance sheet. 17. The antenna system of claim 15 , further comprising two or more surface-wave waveguides disposed adjacent one another. 18. The antenna system of claim 17 , wherein the adjacent surface-wave waveguides share a common conductive side wall. 19. The antenna system of claim 15 , wherein the impedance sheet comprises a tunable element that is tunable for scanning a main radiation lobe of a radiation pattern generated by the antenna system over a range of angles in a direction perpendicular to a plane of the antenna system. 20. A method for electronically steering an antenna system, comprising: transmitting an electromagnetic wave along a surface-wave waveguide, the surface-wave waveguide comprising: a base conductive ground plane comprising opposite side edges; a pair of conductive side walls, one conductive side wall extending from each side edge of the base conductive ground plane; a substrate comprising a dielectric material disposed on the base conductive ground plane and between the conductive side walls; and an impedance sheet disposed on the substrate and between the conductive side walls, wherein edges of the impedance sheet contact an interior of the conductive side walls and ends of the conductive side walls are substantially planar with a surface of the impedance sheet opposite the substrate, the impedance sheet comprising a predetermined impedance characteristic for transmitting an electromagnetic wave, wherein the impedance sheet comprises a tunable element; and tuning the tunable element to scan a main radiation lobe of a radiation pattern generated by the antenna system over a range of angles in a direction perpendicular to a plane of the antenna system.