Antenna with integrated balun

We claim: 1. An antenna comprising: first and second antenna elements, wherein the first antenna element is configured to be electrically connected to an outer conductor of a coaxial cable; a center conductor electrically connected to the second antenna element and configured to be electrically connected to an inner conductor of the coaxial cable; and a dielectric disposed around the center conductor so as to separate the center conductor from the first antenna element, wherein the first antenna element is shaped to gradually surround the dielectric and the center conductor over a length of the first antenna element so as to form a balun, integrated into the first antenna element, that is configured to gradually transform an unbalanced signal in the coaxial cable to a balanced signal that is characteristic of a two-conductor transmission line. 2. The antenna of claim 1 , wherein a degree to which the first antenna element surrounds the dielectric gradually transitions from a first location on a radiating edge of the first antenna element where the dielectric is in tangential contact with the first antenna element to a second location where the first antenna element completely surrounds the dielectric. 3. The antenna of claim 2 , further comprising a dielectric bracket configured to hold the first and second antenna elements in position with respect to each other, and wherein the dielectric bracket comprises a dielectric support structure disposed to maintain a positional relationship between the dielectric and the first conductive element. 4. The antenna of claim 3 , wherein the dielectric is cylindrical and wherein an area of contact between the dielectric support structure and the dielectric does not exceed a circular, cross-sectional area of the dielectric. 5. The antenna of claim 3 , wherein the blades of the tapered slot antenna are positioned with respect to each other so as to define a tapered slot therebetween, and wherein the dielectric support structure is positioned away from any part of the tapered slot by at least 1/24 wavelength of a lowest operating frequency of the antenna of claim 3 . 6. The antenna of claim 2 , wherein a portion of the center conductor is inserted into a receiving hole in the second antenna element, and the antenna further comprises a retainer configured to hold the center conductor in the receiving hole, and wherein a head of the retainer is flush with a surface of the second antenna element. 7. The antenna of claim 1 , wherein the first and second antenna elements are blades of a tapered slot antenna. 8. The antenna of claim 7 , further comprising: third and fourth antenna elements configured in the same manner as the first and second elements, wherein the third and fourth antenna elements are mounted orthogonal to the first and second antenna elements so as to form a dual-polarized, quad, tapered-slot antenna; and wherein edges of the first and second antenna elements are positioned with respect to each other so as to define a first tapered slot, and edges of the third and fourth antenna elements are positioned with respect to each other so as to define a second tapered slot, and wherein at least part of each of the slot-defining edges has a thickness that is non-tapered and stepwise-reduced from the thickness of a remainder of the corresponding blade. 9. The antenna of claim 8 , further comprising a parabolic reflector positioned such that the first and second tapered slots are approximately in a focal position of the parabolic reflector. 10. The antenna of claim 9 further comprising a conductive disk electrically insulated from the antenna elements and mounted coaxially with the parabolic reflector such that the antenna elements are disposed between the conductive disk and the parabolic reflector. 11. The antenna of claim 7 , wherein the blades of the tapered slot antenna are positioned with respect to each other so as to define a tapered slot therebetween, and the antenna further comprises a conductive element electrically connected to both the first and second antenna elements and positioned such that the conductive element spans the tapered slot. 12. A tapered slot antenna (TSA) comprising: a dielectric bracket; first and second conductive blades mounted to the dielectric bracket so as to define an air gap between edges of the first and second blades thereby forming a TSA; and a balun integrated into the first blade, wherein the integrated balun comprises a center conductor electrically connected to the second blade, a dielectric surrounding the center conductor and disposed to electrically insulate the center conductor from the first blade, and wherein at a first location on the first blade the dielectric abuts a bottom edge of the first blade and over a length of the integrated balun the first blade gradually surrounds more and more of the dielectric until, at a second location on the first blade, the dielectric is completely surrounded by the first blade so as to gradually transform an unbalanced signal at the second location to a balanced signal that is characteristic of a two-conductor transmission line at the first location. 13. The TSA of claim 12 , wherein the air gap has a narrowest dimension that is approximately one fourth to one fifth the thickness of the blades. 14. The TSA of claim 12 , wherein the center conductor and dielectric of the integrated balun are sourced from a coaxial cable.