Hybrid TM-TE-TM triple-mode ceramic air cavity filter

What is claimed is: 1. An apparatus, comprising: a filter comprising: a metal structure forming a cavity, wherein the metal structure has a cuboid shape; a ceramic block suspended in the cavity, the ceramic block having a cuboid shape, the ceramic block has two removed portions, the removed portions removed from two opposing sides of the ceramic block, each of the two removed portions has a rectangular box shape, the ceramic block further having one or more slots that span a region of ceramic between the two removed portions and connects chambers formed by the two regions with chambers formed by the one or more slots, wherein a combined structure of the ceramic block, cavity, and metal structure supports multiple fundamental TM modes and one fundamental TE mode; and multiple coupling structures to couple radio frequency signals into and out of the filter. 2. The apparatus of claim 1 , wherein: the apparatus comprises a multi-cavity filter comprising one or more of the filters and a plurality of air coaxial resonators; there is a series of cavity filters from a starting air coaxial resonator, through one or more of the filters and zero or more of the coaxial resonators, ending at an ending air coaxial resonator, each air coaxial resonator comprising a metal box filled with air and comprising a central, horizontally mounted metallic stub; a coupling structure for the starting air coaxial resonator comprises a coaxial port coupled to a line connected to the metallic stub of the starting air coaxial resonator, and another coupling structure for the starting air coaxial resonator comprises an iris in a sidewall of the metallic box, the sidewall opposite the coaxial port, the iris used to couple signals from the starting air coaxial resonator to a next cavity filter in the series; for any intermediate air coaxial resonators or filters in the series between the starting and ending air coaxial resonators, the intermediate air coaxial resonators or filters comprise irises in two opposing sidewalls for coupling signals to or from other cavity filters in the series; and a coupling structure for the ending air coaxial resonator comprises an iris in a sidewall of the metallic box for the ending air coaxial resonator, the iris used to couple the ending air coaxial resonator to a previous cavity filter in the series, and another coupling structure for the ending air coaxial resonator comprises a coaxial port coupled to a line connected to the stub for the ending air coaxial resonator. 3. The apparatus of claim 1 , wherein the one or more slots is a single slot having a rectangular box shape, wherein a rectangle of the rectangular box shape has two dimensions and one dimension of the rectangle is much longer than the other dimension, a center of the rectangle is aligned with a center of the ceramic block, a depth of the rectangular box shape is formed by two opposing sides of the two removed portions, and the rectangle is rotated, in a plane parallel to opposing surfaces of the removed portions, by a certain number of degrees between zero and 90 around the cavity center, relative to a starting point based on an axis in the plane that is parallel to one side wall in that plane of the metal structure. 4. The apparatus of claim 3 , wherein the rectangle is rotated, in the plane, by a certain number of degrees between zero and 90 around the cavity center from a starting point where a long axis along the long dimension of the rectangle is parallel to one side wall of the metal structure. 5. The apparatus of claim 1 , wherein the one or more slots are one of the following: formed as a single slot from a single ellipsoid shape; formed as a single slot from an off-center cylindrical hole; or formed as multiple slots from multiple holes. 6. The apparatus of claim 1 , further comprising an insulated screw, the insulated screw in a surface of the metal structure opposite to a selected removed portion, the insulated screw positioned above the selected removed portion and comprising a metal disc and a plastic screw, the plastic screw touching the metal structure and the metal disk insulated at least by the plastic screw from the metal structure. 7. The apparatus of claim 1 , further comprising at least one metal grounding screw grounded to the metal structure at a ground potential, the at least one metal grounding screw in a surface of the metal structure opposite to a selected removed portion, the at least one metallic grounding screw positioned above a ceramic ridge surrounding the selected removed portion. 8. The apparatus of claim 1 , further comprising at least one metal grounding screw grounded to the metal structure at a ground potential, the at least one metal grounding screw in a surface of the metal structure perpendicular to opposing surfaces of the removed portions. 9. The apparatus of claim 1 , further comprising an insulating support having a first side abutting a side of the metal structure and having a second side abutting a surface of a selected removed portion, where the surface of the selected removed portion is parallel to a surface of another removed portion. 10. The apparatus of claim 9 , wherein the insulating support comprises alumina. 11. The apparatus of claim 1 , comprising a transmitter that comprises the filter. 12. The apparatus of claim 11 , comprising a base station that comprises the transmitter. 13. An apparatus, comprising: a filter comprising: a metal structure forming a cavity; a ceramic block suspended in the cavity, the ceramic block having two removed portions, the removed portions removed from two opposing sides of the ceramic block, the ceramic block further having one or more slots that span a region of ceramic between the two removed portions and connects chambers formed by the two regions with chambers formed by the one or more slots, wherein a combined structure of the ceramic block, cavity, and metal structure supports multiple fundamental TM modes and one fundamental TE mode; and multiple coupling structures to couple radio frequency signals into and out of the filter, wherein the multiple coupling structures comprise first and second coupling structures and each of the first and second coupling structures comprises: a coaxial port comprising a shield coupled to the metal structure, and a center conductor insulated from the metal structure; and an open-ended transmission line coupled to the center conductor, the line embedded a distance d into the cavity from a surface of the metal structure that is opposite from and parallel to a surface of a selected removed portion, where the surface of the selected removed portion is parallel to a surface of the other removed portion. 14. The apparatus of claim 13 , comprising a transmitter that comprises the filter. 15. The apparatus of claim 13 , wherein each open-ended transmission line comprises a transmission line having two straight sections at an angle of 90 degrees from each other. 16. The apparatus of claim 13 , wherein each open-ended transmission line comprises a stub on an end of the line opposite an end of the line coupled to the center conductor. 17. The apparatus of claim 13 , wherein each open-ended transmission line comprises a transmission line curved in an arc at a radius from a center of the ceramic block. 18. The apparatus of claim 17 , wherein the radius of one of the two open-ended transmission lines is the same as the radius of the other of the two open-ended transmission lines. 19. The apparatus of claim 17 , wherein the radius of one of the two open