Multi-band single feed dielectric resonator antenna (DRA) array

The invention claimed is: 1. A multi-band single feed dielectric resonator antenna (DRA) comprising: a single layer of monolithic dielectric material forming: a radiating first antenna region of the dielectric material, wherein the first antenna region has a first dielectric constant; and a non-radiating second antenna region of the dielectric material, wherein the dielectric material of the second antenna region is provided with a plurality of spaced apart physical modifications that cause the second antenna region to have a second dielectric constant that is different from the first dielectric constant, the second antenna region surrounding a perimeter of the first antenna region; a feeding substrate supporting the dielectric material, the feeding substrate comprising: a top surface ground plane having a slot positioned below the first antenna region of the dielectric material; and a microstrip feeding line on a bottom surface, the microstrip feeding line having a first portion positioned below the first antenna region in alignment with the slot on the top surface ground plane, and a second portion that extends from the first portion along the bottom surface to a location below the second antenna region in alignment with a space between at least a pair of the plurality of physical modifications of the dielectric material of the second antenna region. 2. The DRA of claim 1 wherein the first dielectric constant is greater than the second dielectric constant. 3. The DRA of claim 2 wherein the first antenna region and second antenna region are contiguous within the dielectric material. 4. The DRA of claim 1 , wherein the monolithic dielectric material forming the second antenna region and the first antenna region has the same dielectric constant throughout the second antenna region and the first antenna region. 5. The DRA of claim 4 wherein the physical modifications of the second antenna region include at least one of: voids, air holes, perforations, or indentations in or through the second antenna region. 6. The DRA of claim 5 wherein the physical modifications include a plurality of air holes through the second antenna region that have a radius of approximately 0.3 mm. 7. The DRA of claim 5 wherein the physical modifications include a plurality of air holes through the second antenna region and the second dielectric constant is determined by a spacing between the air holes and diameters of the air holes. 8. The DRA of claim 1 wherein the second antenna region modifies radiating modes of the first antenna region. 9. The DRA of claim 1 wherein the slot and the microstrip feeding line are rectangular. 10. The DRA of claim 9 wherein the slot and the microstrip feeding line are perpendicular to each other. 11. A dielectric resonator antenna (DRA) array comprising: a single layer of monolithic dielectric material forming: a plurality of radiating first antenna regions each having a first dielectric constant; and a plurality of non-radiating second antenna regions of the dielectric material, wherein the dielectric material of each second antenna region is provided with a respective plurality of spaced apart physical modifications that cause the second antenna region to have a second dielectric constant that is different from the first dielectric constant, each second antenna region surrounding a perimeter of a respective first antenna region; a feeding substrate supporting the dielectric material, the feeding substrate comprising: a top surface ground plane having a plurality of slots, each slot positioned below the respective first antenna region of the dielectric material; and a plurality of microstrip feeding lines on a bottom surface, each mircostrip feeding line having a first portion positioned below the respective first antenna region in alignment with the respective slot on the top surface ground plane, and a second portion that extends from the first portion along the bottom surface to a location below the respective second antenna region in alignment with a respective space between at least a pair of the respective plurality of physical modifications of the dielectric material of the second antenna region. 12. The DRA array of claim 11 wherein the second dielectric constant of the second antenna region is determined by a plurality of at least one of: voids, air holes, perforations, or indentations in or through the second antenna region. 13. The DRA array of claim 11 wherein the second dielectric constant of the second antenna region is determined by a plurality air holes through the second antenna region that each have a radius of approximately 0.3 mm. 14. The DRA array of claim 11 wherein the second dielectric constant is determined by a spacing between a plurality of air holes through the second dielectric region and diameters of the plurality of air holes. 15. The DRA array of claim 11 further comprising a feed array to each of the microstrip feeding lines wherein the feed array receives a multi-band signal. 16. The DRA array of claim 11 wherein the first dielectric constant is greater than the second dielectric constant. 17. The DRA array of claim 11 wherein the second antenna region modifies radiating modes of the first antenna region. 18. The DRA array of claim 11 wherein the slots and the microstrip feeding lines are rectangular. 19. The DRA array of claim 18 wherein the slots and the microstrip feeding lines are perpendicular to each other. 20. The DRA array of claim 11 wherein the substrate is a printed circuit board (PCB). 21. The DRA array of claim 11 wherein each of the plurality of first antenna regions are arranged in a contiguous grid pattern within the second antenna region.