Patent Number: 
Section: claims

1. An x-ray imaging system comprising:a detector positioned to receive x-rays;an x-ray tube coupled to a mount structure and configured to generate x-rays toward the detector, the x-ray tube comprising:a target;a cathode cup;an emitter attached to the cathode cup and configured to emit a beam of electrons toward the target, the emitter having a length and a width; anda one-dimensional grid positioned between the emitter and the target and attached to the cathode cup at one or more attachment points, the one-dimensional grid comprising:a plurality of rungs that each extend in a direction of the width of the emitter;a pair of mounting beams, wherein each of the plurality of rungs comprises at least one end flexibly, slidably or springably attached to a respective one of the mounting beams such that the plurality of rungs are configured to expand and contract relative to the one or more attachment points without substantial distortion with respect to the emitter. 2. The x-ray imaging system of claim 1 wherein each of the plurality of rungs comprises a first end fixedly attached to a first mounting beam and a second end springably attached to a second mounting beam. 3. The x-ray imaging system of claim 1, further comprising:connectors coupled between neighboring pair of rungs; andat least two extension members coupled to the plurality of rungs and configured to attach the plurality of rungs to the cathode cup at respective attachment points, wherein the attachment points are positioned on alternating ends of the rungs, such that the plurality of rungs and their respective connectors form a zig-zag pattern. 4. The x-ray imaging system of claim 1wherein the one-dimensional grid further comprises a plurality of rings forming a coil, each ring forming a rung of the plurality of rungs and configured to encircle the emitter, the coil comprising a pair of legs coupled to the plurality of rings, each leg attached to a respective attachment point. 5. The imaging system of claim 1 wherein the one-dimensional grid further comprises a first mounting beam and a second mounting beam; andwherein a first end of each of the plurality of rungs is flexibly attached to one of the first and second mounting beams and a second end of each of the plurality of rungs is fixedly attached to the other of the first and second mounting beams to allow flexure of the mounting beams along a width direction of the emitter. 6. A method of fabricating a cathode assembly, the method comprising:attaching a filament to a cathode cup;forming a one-dimensional grid having crosspieces that extend generally along a width direction of the filament, wherein forming the one-dimensional grid comprises one of:forming a wire into a zig-zag pattern to form each of the crosspieces, wherein the wire comprises two ends, each end of the wire attached to a respective attachment point; orforming a plurality of coil rings, each coil ring of the plurality of coil rings forming a respective crosspiece of the plurality of crosspieces; orproviding a first support beam and a second support beam, fixedly attaching first ends of the crosspieces to the first support beam, and slideably capturing second ends of the crosspieces in slots in the second beam;positioning the grid proximately to the filament such that electrons that emit from the filament pass between the crosspieces of the one-dimensional grid when accelerated toward an anode; andattaching the grid to the cathode cup at attachment points such that the crosspieces expand, when heated, relative to the attachment points without distorting with respect to neighboring crosspieces. 7. A method of fabricating a cathode assembly, the method comprising:attaching a filament to a cathode cup;forming a one-dimensional grid having crosspieces that extend generally along a width direction of the filament, wherein forming the one-dimensional grid comprises:providing a first support beam and a second support beam; and one offixedly attaching first ends of the crosspieces to the first support beam and springably attaching second ends of the crosspieces to the second beam; orflexibly attaching first ends of the crosspieces to the first support beam and fixedly attaching second ends of the crosspieces to the second beam;positioning the grid proximately to the filament such that electrons that emit from the filament pass between the crosspieces of the one-dimensional grid when accelerated toward an anode; andattaching the grid to the cathode cup at attachment points such that the crosspieces expand, when heated, relative to the attachment points without distorting with respect to neighboring crosspieces. 8. An x-ray tube comprising:a target configured to emit electrons from a focal spot;a cup;an emitter attached to the cup and positioned to emit high-energy electrons toward the focal spot; anda uni-dimensional grated mesh positioned proximately to the emitter and between the target and the emitter such that emitted electrons pass between rungs of the mesh, wherein the uni-dimensional grated mesh comprises a coil and wherein the emitter is positioned within the coil;wherein the uni-dimensional grated mesh is fixedly attached to the cup at attachment points such that rungs of the mesh expand and contract, upon heating and cooling, without substantial distortion with respect to the cup. 9. An x-ray tube comprising:a target configured to emit electrons from a focal spot;a cup;an emitter attached to the cup and positioned to emit high-energy electrons toward the focal spot; anda uni-dimensional grated mesh positioned proximately to the emitter and between the target and the emitter such that emitted electrons pass between rungs of the mesh, the uni-dimensional grated mesh being fixedly attached to the cup at attachment points such that rungs of the mesh expand and contract, upon heating and cooling, without substantial distortion with respect to the cup; anda pair of mounting beams, wherein each of the rungs comprises at least one end flexibly, slidably or springably attached to a respective one of the mounting beams such that the rungs are allowed to expand and contract relative to the one or more attachment points without substantial distortion with respect to the emitter.