X-ray filtration

The invention claimed is: 1. An X-ray filter assembly, comprising: a plurality of X-ray attenuating sheets arranged in a stack, wherein the X-ray attenuating sheets are angled with respect to one another so as to have a focus point that is converged upon by transmission pathways between the X-ray attenuating sheets; and a plurality of X-ray transmissive sheets disposed alternately with the plurality of X-ray attenuating sheets such that a respective X-ray transmissive sheet is positioned between each adjacent pair of X-ray attenuating sheets, wherein the X-ray transmissive sheets have a tapered profile that varies in thickness across at least part of their length so that, when stacked, the adjacent X-ray attenuating sheets are angled with respect to one another, further wherein tapering of the transmissive sheets determine a focus point of the filter assembly when the stack is assembled and wherein a position and/or an orientation of the filter assembly relative to the focus point allow beam-steering without a mechanical motion of the filter assembly, and/or dynamic adjustment of an X-ray spot size observed at a patient. 2. The X-ray filter assembly of claim 1 , wherein the X-ray transmissive sheets define the transmission pathways between the X-ray attenuating sheets. 3. The X-ray filter assembly of claim 1 , wherein the X-ray transmissive sheets are formed from at least a polyimide film. 4. The X-ray filter assembly of claim 1 , wherein each X-ray transmissive sheet has a thickness of approximately 1 to 50 mils. 5. The X-ray filter assembly of claim 1 , wherein the X-ray attenuating sheets are formed from one or more of molybdenum, tungsten, iron, nickel, zinc, copper, silver, tin, tantalum, gold, lead, or rhenium film. 6. The X-ray filter assembly of claim 1 , wherein each X-ray attenuating sheet has a thickness of approximately 0.1 to 5 mils. 7. The X-ray filter assembly of claim 1 , further comprising a mounting assembly configured to hold the stack of X-ray attenuating sheets in alignment. 8. The X-ray filter assembly of claim 7 , wherein the mounting assembly is configured to be positioned with a gantry of a computed tomography (CT) imager between an X-ray source and an imaged volume. 9. An X-ray imaging system, comprising: an X-ray detector configured to generate signals in response to incident X-ray radiation; an X-ray source configured to emit X-rays from an X-ray emission point and through an imaging volume toward the X-ray detector; a data acquisition system configured to readout signals from the X-ray detector; and at least one X-ray filter positioned between the X-ray source and the imaging volume; wherein the X-ray filter or filters have a focus point that is spatially offset from the X-ray emission point, and further wherein the X-ray filter or filters each comprise a stack of alternating X-ray attenuating sheets and X-ray transmissive sheets, wherein the X-ray transmissive sheets have a tapered profile that varies in thickness across at least part of their length so that, the adjacent X-ray attenuating sheets are angled with respect to one another, further wherein tapering of the transmissive sheets determine a focus point of the filter assembly when the stack is assembled and wherein a position and/or an orientation of the filter assembly relative to the focus point allow beam-steering without a mechanical motion of the filter assembly, and/or dynamic adjustment of an X-ray spot size observed at a patient. 10. The X-ray imaging system of claim 9 , wherein the X-ray filter or filters have a focus point that is behind the X-ray emission point with respect to the X-ray source and respective X-ray filter. 11. The X-ray imaging system of claim 9 , wherein the X-ray filter or filters are mounted proximate to a window of the X-ray source. 12. The X-ray imaging system of claim 9 , wherein the X-ray filter or filters are configured to be one or both of translated or rotated with respect to the X-ray emission point. 13. The X-ray imaging system of claim 9 , wherein the X-ray filter or filters are configured to remain stationary while the X-ray emission points are moved. 14. A method for filtering X-rays, comprising: generating X-rays at an X-ray emission point of an X-ray source; filtering at least a portion of the X-rays through an X-ray filter assembly positioned between the X-ray source and an imaging volume; disposing a plurality of X-ray transmissive sheets alternately with the plurality of X-ray attenuating sheets such that a respective X-ray transmissive sheet is positioned between each adjacent pair of X-ray attenuating sheets, wherein the X-ray transmissive sheets have a tapered profile that varies in thickness across at least part of their length so that, when stacked, the adjacent X-ray attenuating sheets are angled with respect to one another and further wherein the X-ray transmissive sheets define a plurality of transmission pathways between the X-ray attenuating sheets; determining a focus point corresponding to a convergence point of the plurality of transmission pathways between the attenuating sheets, wherein the focus point is spatially offset from the X-ray emission point; positioning and/or an orientating the filter assembly relative to the focus point to steer an X-Ray beam without mechanically moving the filter assembly, and/or dynamically adjusting an X-ray spot size observed at a patient; and detecting X-rays at a detector positioned opposite the X-ray source and X-ray filter assembly across the imaging volume. 15. The method of claim 14 , wherein filtering the X-rays comprises moving the X-ray filter assembly in one or both of a first direction corresponding to a fan angle direction or a second direction corresponding to a direction of propagation of the X-rays at fan angle zero. 16. The method of claim 14 , wherein filtering the X-rays comprises rotating the X-ray filter assembly. 17. The method of claim 14 , wherein filtering the X-rays comprises moving the X-ray emission point with respect to the X-ray filter assembly.