Self-cancelling full duplex antenna array

The invention claimed is: 1. An antenna array for full duplex communications, the antenna array comprising: an array of at least two antenna elements; and a substrate supporting the array of antenna elements, the substrate including: a feed network including a plurality of probes, each probe being connected to a respective antenna element; and a parallel plate waveguide layered with the feed network, the parallel plate waveguide having a core of varying dielectric constant, wherein the varying dielectric constant varies from a first probe connected to a first antenna element to a second probe connected to a second antenna element, and wherein the core of varying dielectric constant causes a parallel plate wave that propagates from the first antenna element to the second antenna element to have a phase offset with a surface wave that propagates from the first antenna element to the second antenna element, to cause cancellation of the parallel plate wave with the surface wave at the second probe. 2. The antenna array of claim 1 , wherein the core comprises two or more materials having different dielectric constants. 3. The antenna array of claim 1 , wherein the core comprises a core material having voids. 4. The antenna array of claim 3 , wherein the voids have dimensions that vary along a gradation between the first probe and the second probe. 5. The antenna array of claim 3 , wherein the voids increase in size with increasing distance from each probe, and decrease in size with decreasing distance from each probe. 6. The antenna array of claim 3 , wherein the voids are arranged in a symmetrical arrangement about each probe. 7. The antenna array of claim 1 , wherein the varying dielectric constant of the core increases towards each probe and decreases towards a midpoint between adjacent probes. 8. The antenna array of claim 1 , wherein the substrate further comprises a reflector layered with the feed network. 9. The antenna array of claim 1 , wherein the antenna elements are circularly polarized antenna elements. 10. An apparatus comprising: an antenna array comprising: an array of at least two antenna elements; and a substrate supporting the array of antenna elements, the substrate including: a feed network including a plurality of probes, each probe being connected to a respective antenna element; and a parallel plate waveguide layered with the feed network, the parallel plate waveguide having a core of varying dielectric constant, wherein the varying dielectric constant varies from a first probe connected to a first antenna element to a second probe connected to a second antenna element, and wherein the core of varying dielectric constant causes a parallel plate wave that propagates from the first antenna element to the second antenna element to have a phase offset with a surface wave that propagates from the first antenna element to the second antenna element, to cause cancellation of the parallel plate wave with the surface wave at the second probe, a transmitter coupled to the antenna array for providing a transmit signal; and a receiver coupled to the antenna array for receiving a receive signal. 11. The apparatus of claim 10 , wherein, in the antenna array, the core comprises two or more materials having different dielectric constants. 12. The apparatus of claim 10 , wherein, in the antenna array, the core comprises a core material having voids. 13. The apparatus of claim 12 , wherein, in the antenna array, the voids have dimensions that vary along a gradation between the first probe and the second probe. 14. The apparatus of claim 10 , wherein, in the antenna array, the varying dielectric constant of the core increases towards each probe and decreases towards a midpoint between adjacent probes. 15. The apparatus of claim 10 , wherein the apparatus is configured to conduct full-duplex communications. 16. The apparatus of claim 10 , wherein the apparatus is a base station. 17. The apparatus of claim 10 , wherein the apparatus is a user equipment (UE).