Radio frequency and fluid coupler for a subterranean assembly and related methods

That which is claimed is: 1. A radio frequency (RF) and fluid coupler for a subterranean assembly comprising an RF antenna and a coaxial transmission line connected thereto, the coaxial transmission line comprising an inner conductor and an outer conductor surrounding the inner conductor, the subterranean assembly having at least one fluid passageway therein, the RF and fluid coupler comprising: an electrically conductive hollow body comprising a plurality of electrically conductive segments connected together in end-to-end relation at respective joints to provide an outer electrical pathway to connect to the outer conductor of the coaxial transmission line; an elongate conductive member extending within said electrically conductive hollow body to provide an inner electrical pathway to connect to the inner conductor of the coaxial transmission line; a respective dielectric pressure barrier between said elongate conductive member and adjacent portions of said electrically conductive hollow body adjacent each of a pair of joints to define at least one fluid chamber to connect to the at least one fluid passageway of the subterranean assembly; and a fluid port connected to the at least one fluid chamber. 2. The RF and fluid coupler according to claim 1 further comprising at least one RF contact between adjacent ones of said plurality of electrically conductive segments at respective joints. 3. The RF and fluid coupler according to claim 2 wherein said at least one RF contact comprises at least one conductive wound spring. 4. The RF and fluid coupler according to claim 3 wherein said at least one conductive wound spring has a generally rectangular shape. 5. The RF and fluid coupler according to claim 1 wherein each respective dielectric pressure barrier comprises quartz fiber. 6. The RF and fluid coupler according to claim 1 further comprising at least one seal between adjacent ones of said plurality of electrically conductive segments at a respective joint. 7. The RF and fluid coupler according to claim 1 wherein each of said plurality of electrically conductive segments has an enlarged width flange at each joint and a plurality of fastener receiving passageways therein; and further comprising a respective fastener within each fastener receiving passageway. 8. The RF and fluid coupler according to claim 1 wherein each of said electrically conductive segments comprises a base material and an electrically conductive material layer on the base material. 9. The RF and fluid coupler according to claim 1 wherein each of said electrically conductive segments comprises brass. 10. A system comprising: a subterranean assembly having at least one fluid passageway therein comprising an RF antenna, and a coaxial transmission line connected to said RF antenna, said coaxial transmission line comprising an inner conductor and an outer conductor surrounding the inner conductor; and a radio frequency (RF) and fluid coupler coupled to said subterranean assembly and comprising an electrically conductive hollow body comprising a plurality of electrically conductive segments connected together in end-to-end relation at respective joints to provide an outer electrical pathway to connect to the outer conductor of the coaxial transmission line, an elongate conductive member extending within said electrically conductive hollow body to provide an inner electrical pathway to connect to the inner conductor of the coaxial transmission line, a respective dielectric pressure barrier between said elongate conductive member and adjacent portions of said electrically conductive hollow body adjacent each of a pair of joints to define at least one fluid chamber to connect to the at least one fluid passageway of the subterranean assembly, and a fluid port connected to the at least one fluid chamber. 11. The system according to claim 10 wherein said RF and fluid coupler further comprises at least one RF contact between adjacent ones of said plurality of electrically conductive segments at respective joints. 12. The system according to claim 11 wherein said at least one RF contact comprises at least one conductive wound spring. 13. The system according to claim 10 wherein each respective dielectric pressure barrier comprises quartz fiber. 14. The system according to claim 10 wherein said RF and fluid coupler further comprises at least one seal between adjacent ones of said plurality of electrically conductive segments at a respective joint. 15. A method of making a radio frequency (RF) and fluid coupler for a subterranean assembly comprising an RF antenna and a coaxial transmission line connected thereto, the coaxial transmission line comprising an inner conductor and an outer conductor surrounding the inner conductor, the subterranean assembly having at least one fluid passageway therein, the method comprising: forming an electrically conductive hollow body comprising a plurality of electrically conductive segments connected together in end-to-end relation at respective joints to provide an outer electrical pathway to connect to the outer conductor of the coaxial transmission line; forming an elongate conductive member to extend within the electrically conductive hollow body to provide an inner electrical pathway to connect to the inner conductor of the coaxial transmission line; positioning a respective dielectric pressure barrier between the elongate conductive member and adjacent portions of the electrically conductive hollow body adjacent each of a pair of joints to define at least one fluid chamber to connect to the at least one fluid passageway of the subterranean assembly; and forming a fluid port connected to the at least one fluid chamber. 16. The method according to claim 15 further comprising positioning at least one RF contact between adjacent ones of the plurality of electrically conductive segments at respective joints. 17. The method according to claim 16 wherein positioning the at least one RF contact comprises positioning at least one conductive wound spring. 18. The method according to claim 15 wherein the respective dielectric pressure barrier comprises quartz fiber. 19. The method according to claim 15 further comprising positioning at least one seal between adjacent ones of the plurality of electrically conductive segments at a respective joint.