Compact radiating element having resonant cavities

The invention claimed is: 1. A radiating element comprising: at least two concentric resonant cavities formed by a lower cavity fed by excitation means, and an upper cavity stacked on the lower cavity, each of said resonant cavities being delimited in a respective lower part by a respective earth plane, in a respective lateral part by a respective cylindrical lateral wall, at least the upper cavity being delimited in a respective upper part by a first cap that is essentially planar; a plurality of corrugations, each of the plurality of corrugations being essentially of cylindrical shape and concentric with the cylindrical lateral wall of the lower cavity, are formed substantially below the first earth plane of the upper resonant cavity; and wherein the earth planes, the lateral walls, and the corrugations are made of a metallic material. 2. The radiating element as claimed in claim 1 , wherein the lower cavity is also delimited in a respective upper part, substantially at the level of the lower part of the upper cavity, by a second cap. 3. The radiating element as claimed in claim 2 , wherein the first cap and the second cap are made of a metallic material. 4. The radiating element as claimed in claim 2 , wherein the first cap and the second cap are formed by a partially reflecting surface. 5. The radiating element as claimed in claim 2 , wherein the first cap and the second cap are formed by a metallic grid. 6. The radiating element as claimed in claim 2 , wherein the first cap and the second cap are formed by a dielectric material. 7. The radiating element as claimed in claim 1 , wherein a polarizing radome is produced in the upper part of the upper cavity. 8. The radiating element, as claimed in claim 7 , wherein the polarizing radome is formed by two essentially planar frequency-selective polarizing surfaces being polarizing FSSs, disposed parallel to one another, and parallel to and substantially above said first cap. 9. The radiating element as claimed in claim 8 , wherein each polarizing FSS is formed by a metallic plate comprising a plurality of slots. 10. The radiating element as claimed in claim 8 , wherein each polarizing FSS is formed by a metallic plate comprising a plurality of cross-slot cells. 11. The radiating element as claimed in claim 10 , wherein each polarizing FSS is formed by a metallic plate comprising a plurality of cross-slot cells is disposed according to a periodic pattern on the surface of the metallic plate. 12. The radiating element as claimed in claim 1 , wherein the lateral walls and the corrugations are cylindrical with circular cross section. 13. The radiating element as claimed in claim 1 , wherein said excitation means comprise at least one feed guide concentric with the resonant cavities and emerging directly, or via matching means, in the lower cavity. 14. The radiating element as claimed in claim 1 , wherein said excitation means comprise at least one dual feed formed by two lateral waveguides emerging in a symmetric manner with respect to the main axis of the lower cavity, substantially at the level of the lateral wall of the lower cavity, the signals conveyed by the excitation means being tuned phase-wise in such a way that the undesirable higher modes are filtered. 15. The radiating element as claimed in claim 1 , wherein said excitation means comprise at least one feed guide concentric with the resonant cavities and emerging directly, or via matching means, in the lower cavity, and at least one dual feed formed by two lateral waveguides emerging in a symmetric manner with respect to the main axis of the lower cavity, substantially at the level of the lateral wall of the lower cavity, the signals conveyed by the excitation means being tuned phase-wise in such a way that the undesirable higher modes are filtered. 16. The radiating element as claimed in claim 1 , wherein a polarizing radome is produced above the upper cavity, the polarizing radome being essentially of cylindrical shape and concentric with the resonant cavities. 17. The radiating element as claimed in claim 16 , wherein said polarizing radome is essentially of cylindrical shape with square cross section. 18. An array antenna comprising one or more radiating elements as claimed in claim 1 .