Substrate integrated waveguide having space apart radiating elements formed on a substrate and a superstrate including pairs of wings and a reconfigurable metasurface for beam scanning the radiating elements

The invention claimed is: 1. A substrate integrated waveguide (SIW) for millimeter wave applications, comprising: a substrate having length, width, and height dimensions; a wave entry port on a first end of the substrate and a wave exit port on a second end of the substrate, wherein the first and second ends are opposite ends of the substrate; a waveguide extending through the substrate from the wave entry port to the wave exit port; a plurality of spaced apart radiating elements which extend within the waveguide of the substrate; a superstrate positioned above the substrate; a first pair of wings which angularly extend from the substrate upward into the superstrate, wherein the first pair of wings are spaced apart by a spacing, and wherein the plurality of radiating elements are positioned in said spacing; and a reconfigurable metasurface configured for providing beam scanning capability positioned in or forming the superstrate between and above the spacing of the first pair of wings and at an angle relative to a top surface of the substrate, wherein the SIW comprises at least one of a length and/or width of the reconfigurable metasurface is variable, the angle of the reconfigurable metasurface is variable relative to the top surface of the substrate, and a second pair of wings angularly extending from the substrate upward into the superstrate, wherein the second pair of wings are spaced apart by a second spacing, wherein the plurality of radiating elements are also positioned in the second spacing, and wherein the first pair of wings and the second pair of wings are at right angles to one another and together form a horn above the plurality of spaced apart radiating elements. 2. The SIW of claim 1 wherein the SIW comprises the reconfigurable metasurface. 3. The SIW of claim 2 wherein the length and/or width of the reconfigurable meta surface is varied using an array of PIN diodes which are selectively turned ON or OFF to control transmissivity or reflectance of electromagnetic waves. 4. The SIW of claim 2 wherein the angle of the reconfigurable meta surface is varied using a plurality of tilted panels, each tilted panel having with an array of PIN diodes which are selectively turned ON or OFF to control transmissivity or reflectance of electromagnetic waves. 5. The SIW of claim 1 wherein the waveguide comprises a plurality of curved sections and which passes through the substrate from the wave entry port to the wave exit port, wherein the plurality of curved sections forms a serpentine path of curves in a first direction followed by curves in a second direction which is opposite the first direction, and wherein the plurality of spaced apart radiating elements are positioned between curves in the first direction and curves in the second direction. 6. The SIW of claim 1 wherein the first and second pair of wings have a length of approximately 100 mm. 7. The SIW of claim 1 wherein the first and second pair of wings are metallic.