Antenna system for broadband satellite communication in the GHz frequency range, comprising dielectrically filled horn antennas

The invention claimed is: 1. An antenna system for wireless communication of data, the antenna system comprising: at least four horn antennas coupled to each other, such that the at least four horn antennas communicate the data in parallel; at least four cavities respectively associated with the horn antennas, each having three layered portions; a dielectric provided in each respective layered portion associated with each respective cavity, such that the dielectric substantially fills each respective cavity, wherein the dielectric has a dielectric constant between about 1.8 and 3; and two microstrip line networks arranged between two adjacent layered portions associated with each respective cavity and configured to communicate with the horn antennas. 2. The antenna system according to claim 1 , wherein each horn cavity is completely filled with dielectric. 3. The antenna system according to claim 1 , wherein a dielectric constant of the dielectric is greater than or equal to a ratio of a free-space wavelength of a lowest useful frequency of the antenna system to a free-space wavelength of a reference frequency, the reference frequency being within a transmission band of the antenna system. 4. The antenna system according to claim 1 , wherein a dielectric constant of the dielectric is between 1.8 and 3. 5. The antenna system according to claim 4 , wherein the dielectric constant of the dielectric is between 1.9 and 2.1. 6. The antenna system according to claim 1 , wherein the two microstrip line networks are in a binary tree configuration such that the microstrip line networks may communicate with the horn antennas in parallel. 7. The antenna system according to claim 1 , wherein: the microstrip line networks are formed on a substrate and include microstrip lines routed in cavities of the substrate, and walls of the cavities are electrically conductive. 8. The antenna system according to claim 7 , wherein the substrate is provided with metal plated-through holes configured to establish an electrical contact between the walls of the cavities. 9. The antenna system according to claim 1 , wherein the microstrip line networks include microstrip lines having dimensions that support both a transmission band and a reception band of the antenna system. 10. The antenna system according to claim 1 , wherein the microstrip line networks include: a first microstrip line network including first microstrip lines having dimensions that support a reception band of the antenna system, and a second microstrip line network including second microstrip lines having dimensions that support a transmission band of the antenna system. 11. The antenna system according to claim 10 , wherein: the first microstrip line network is configured so that in the reception band, power contributions of the horn antennas are approximately equal, and the second microstrip line network is configured so that in the transmission band, power contributions of at least some of the horn antennas are different than one another. 12. The antenna system according to claim 1 , further comprising: 90° hybrid couplers coupled to the microstrip line networks, and configured to produce circularly polarized signals from linearly polarized signals, such that the microstrip line networks may communicate circularly polarized signals with the horn antennas. 13. The antenna system according to claim 1 , further comprising: a polarizer coupled to the horn antennas, and configured to communicate circularly polarized signals with the horn antennas. 14. The antenna system according to claim 13 , wherein the polarizer includes a multilayered meander line polarizer that is mounted in front of apertures of the horn antennas. 15. The antenna system according to claim 1 , wherein each horn antenna has an approximately rectangular aperture, a larger edge of the aperture being shorter than 1.5 cm. 16. The antenna system according to claim 15 , wherein the larger edge of the aperture is shorter than 1 cm. 17. The antenna system according to claim 1 , wherein the horn antennas are stepped horn antennas. 18. The antenna system according to claim 1 , wherein each horn antenna has an approximately rectangular aperture, a length of at least one edge of the aperture being less than or equal to a wavelength of a reference frequency, the reference frequency being within a transmission band of the antenna system. 19. The antenna system according to claim 18 , wherein the horn antennas are stepped horn antennas, each horn antenna having: a first rectangular section, a longer edge of an opening of the first rectangular section being greater than or equal to half a ratio of a free-space wavelength of a lowest cutoff frequency of the antenna system to a square root of a dielectric constant of the dielectric, and a second rectangular section, a longer edge of an opening of the second rectangular section being greater than or equal to half a ratio of a free-space wavelength of a highest useful frequency of the antenna system to the square root of the dielectric constant of the dielectric. 20. The antenna system according to claim 1 , wherein each horn antenna is configured to support communications at a first polarization and a second polarization that are orthogonal to one another. 21. The antenna system according to claim 20 , wherein the first and second polarizations are linear polarizations. 22. The antenna system according to claim 20 , further comprising: a first microstrip line network configured to communicate with the horn antennas at the first polarization; and a second microstrip line network separated from the first microstrip line network and configured to communicate with the horn antennas at the second polarization. 23. The antenna system according to claim 1 , wherein an interval between phase centers of at least two adjacent horn antennas is less than or equal to a wavelength of a reference frequency that lies within a transmission band of the antenna system. 24. The antenna system according to claim 1 , wherein at least one of the horn antennas is equipped with at least one of a dielectric cross septum or a dielectric lens. 25. The antenna system according to claim 1 , further comprising: frequency diplexers configured to separate signals of a transmission band and signals of a reception band, and communicate the separated signals with the horn antennas. 26. An antenna array for wireless communication of data, the antenna array comprising: a plurality of antenna systems according to claim 1 ; and waveguide networks coupling the antenna systems one to another, the waveguide networks configured to communicate data with the antenna systems. 27. The antenna array according to claim 26 , wherein the waveguide networks include: a first waveguide network configured to couple signals of a first polarization into or out of the antenna systems, and a second waveguide network configured to couple signals of a second polarization into or out of the antenna systems. 28. The antenna array according to claim 27 , wherein: the first waveguide network includes waveguides having dimensions that support a reception band of the antenna array, and the second waveguide network includes waveguides having dimensions that support a transmission band of the antenna array. 29. The antenna array acc