Orthogonal-mode junction coupler and associated polarization and frequency separator

The invention claimed is: 1. An orthogonal-mode junction coupler having a casing delimiting a coupling cavity, electromagnetic signals polarized according to at least two orthogonal linear polarizations being able to propagate inside the coupling cavity, said coupler comprising: two input/output accesses, passing through said casing and opening into said coupling cavity, said two input/output accesses being aligned along a longitudinal axis that is longitudinal with respect to the junction coupler and being arranged at opposite ends of the junction coupler, said longitudinal axis being defined by the direction of propagation of the electromagnetic signals; three coupling slots provided in the casing of the junction coupler, said three coupling slots passing through a transverse plane that is transverse with respect to the junction coupler, said transverse plane being substantially perpendicular to the longitudinal axis; and an image slot that is provided in the casing of the coupler, said image slot passing through the transverse plane, one end of said image slot opening into the coupling cavity and another other end of said image slot being closed by a short-circuit plane, wherein a first and a second of said three coupling slots are aligned along a first transverse axis that is transverse with respect to the junction coupler, respective sections of said first and second coupling slots being of the same dimensions and of the same orientation, the first and second coupling slots being configured to be coupled to one of the two orthogonal linear polarizations of the electromagnetic signals propagating between the two input/output accesses, a third of said three coupling slots being situated on a second transverse axis that is transverse with respect to the junction coupler, said second transverse axis being substantially orthogonal with respect to the first transverse axis, said image slot being opposite the third coupling slot, and a section of said image slot being of the same dimensions and of the same orientation as a section of the third coupling slot. 2. The junction coupler according to claim 1 , wherein the first and second coupling slots aligned along the transverse axis are configured to be coupled to a vertical linear polarization of the at least two linear orthogonal polarizations, the third coupling slot being configured to be coupled to a horizontal linear polarization of the at least two linear orthogonal polarizations. 3. The junction coupler according to claim 1 , wherein the first and second coupling slots aligned along the transverse axis are configured to be coupled to a horizontal linear polarization of the at least two linear orthogonal polarizations, the third coupling slot being configured to be coupled to a vertical linear polarization of the at least two linear orthogonal polarizations. 4. The junction coupler according to claim 1 , wherein a cross-section of the coupling cavity is taken from a substantially square, rectangular, circular or elliptical shape. 5. The junction coupler according to claim 1 , wherein the three coupling slots are oriented so as to allow electrical coupling. 6. The junction coupler according to claim 1 , wherein the three coupling slots are oriented so as to allow magnetic coupling. 7. The junction coupler according to claim 1 , wherein one of the two input/output accesses is connected to a short-circuit plane or a cut-off filter. 8. A polarization and frequency separator, comprising an orthogonal-mode junction coupler according to claim 1 , wherein one input/output access of the two input/output accesses of the coupler being connected to an antenna and the other input/output access of the two input/output accesses of the coupler being connected to a short-circuit plane, the third coupling slot forming a polarization access, and the first and second coupling slots being joined together by means of a summer in order to form another polarization access. 9. The polarization and frequency separator according to claim 8 , wherein a filter arm is connected to each of the three coupling slots and wherein the short-circuit plane connected to the other input/output access is replaced by a cut-off filter. 10. The polarization and frequency separator according to claim 9 , wherein the filtering arms and the summer are produced using a technology taken from waveguide technology, coaxial technology or microstrip technology.