Radio frequency connection arrangement

What is claimed is: 1. A radio frequency transmission arrangement comprising: a ground plate having first and second opposite sides and an aperture passing through the ground plate from the first side to the second side, the aperture comprising a slot, the slot having an elongate cross-section in the plane of the first side of the ground plate, the cross-section having substantially parallel sides extending along a long axis of the cross section, and the slot having a width which is the distance between the parallel sides of the cross-section of the slot; a first transmission line comprising a first elongate conductor disposed on the first side of the ground plate in a substantially parallel relationship with the first side of the ground plate, the first transmission line having an end terminated with a first termination stub; and a second transmission line comprising a second elongate conductor disposed on the second side of the ground plate in a substantially parallel relationship with the second side of the ground plate, the second transmission line having an end terminated with a second termination stub, wherein the first transmission line is arranged to cross the slot at a point adjacent to the first termination stub, and the second transmission line is arranged to cross the slot at a point adjacent to the second termination stub, wherein a thickness of the ground plate is greater than the width of the slot, and wherein the first transmission line is formed by a printed track on a polyester film, disposed with an air gap between the polyester film and the ground plate. 2. The radio frequency transmission arrangement of claim 1 , wherein the aperture is an air-filled cavity. 3. The radio frequency transmission arrangement of claim 1 , wherein the ground plate is composed of a non-conductive moulding having an electrically conductive coating. 4. The radio frequency transmission arrangement of claim 3 , wherein the non-conductive moulding comprises a plastic material and a conductive surface comprises copper. 5. The radio frequency transmission arrangement of claim 1 , wherein the ground plate is composed of a metal. 6. The radio frequency transmission arrangement of claim 5 , wherein the metal is cast aluminium. 7. The radio frequency transmission arrangement of claim 1 , wherein the thickness of the ground plate is greater than four times the width of the slot. 8. The radio frequency transmission arrangement of claim 1 , wherein the width of the slot is greater than 1 mm and the thickness of the ground plate is greater than 5 mm. 9. The radio frequency transmission arrangement of claim 1 , wherein the width of the slot is in the range 1 to 3 mm and the thickness of the ground plate is in the range 5 to 15 mm. 10. The radio frequency transmission arrangement of claim 1 , wherein the aperture comprises a respective termination cavity at each end of the slot. 11. The radio frequency transmission arrangement of claim 10 , wherein each termination cavity is cylindrical in cross section. 12. The radio frequency transmission arrangement of claim 11 , wherein each cylindrical terminating cavity has a cross section having a diameter of substantially 0.1 of a wavelength at an operating frequency of the radio frequency transmission structure. 13. The radio frequency transmission arrangement of claim 1 , wherein the slot has a length of less than a wavelength at an operating frequency of the radio frequency transmission arrangement. 14. The radio frequency transmission arrangement of claim 13 , wherein the slot has a length of less than 0.3 of a wavelength at an operating frequency of the radio frequency transmission arrangement. 15. The radio frequency transmission arrangement of claim 1 , wherein the first transmission line crosses the slot at a point offset along the slot from the point where the second transmission line crosses the slot. 16. The radio frequency transmission arrangement of claim 1 , wherein the first transmission line crosses the slot directly opposite the point where the second transmission line crosses the slot. 17. The radio frequency transmission arrangement of claim 1 , wherein the first and second terminating stubs have a cross section having a diameter of substantially 0.1 of a wavelength at an operating frequency of the radio frequency transmission structure. 18. The radio frequency transmission arrangement of claim 1 , wherein the ground plate has a protrusion from the second side, the protrusion being arranged to pass through an opening in a metal plate disposed in a substantially parallel relationship with the ground plate, and the aperture being arranged to pass through the protrusion, whereby to provide a radio frequency connection through the metal plate to the second transmission line.