Patent Number: 
Section: claims

1. A cone angle dependent pre-subject filter configuration for use with a radiation emitting imaging device, the filter configuration comprising: a flat surface configured to extend along a z-direction;  a concave surface configured to extend parallel to the flat surface along the z-direction and arranged to optimize data utilization efficiency of the radiation emitting device; and  a number of sidewalls oriented along an x-direction and connecting the flat surface and the concave surface in a single structure. 2. The filter of  claim 1  formed of a filtering material having a constant density. claim 1 3. The filter of  claim 1  wherein the convex surface is continuous and smooth. claim 1 4. The filter of  claim 1  wherein the radiation emitting device emits x-ray radiation and the single structure is solid and has a varying thickness, wherein the thickness at a generally end region of the single solid structure exceeds a thickness at a generally center region of the single solid structure to provide an effective increase in x-ray flux to inner detector rows and reduce x-ray flux to outer detector rows and reduce overall x-ray dosage. claim 1 5. The filter of  claim 4  having a noise index at the generally end region exceeding a noise index of the generally center region. claim 4 6. The filter of  claim 4  incorporated into a computed tomography (CT) apparatus. claim 4 7. A radiation emitting imaging device comprising: a rotatable gantry having an opening defined therein for receiving a subject to be scanned;  a subject positioner configured to position the subject within the opening along a z-axis;  a high frequency (HF) electromagnetic energy projection source configured to project HF electromagnetic energy to the subject;  at least one filtering device configured to filter HF electromagnetic energy projected to the subject, the filtering device having a body defined by a length that extends along the z-axis and a width that extends along an x-axis and when the body has a section of concavity that extends along the length of the filtering device;  a detector array having a plurality of detectors to detect HF electromagnetic energy passing through the subject and to output a plurality of electrical signals indicative of an intensity of the HF electromagnetic energy detected;  a data acquisition system (DAS) connected to the detector array and configured to receive the plurality of electrical signals; and  an image reconstructor connected to the DAS and configured to reconstruct an image of the subject from the plurality of signals received by the DAS according to a reconstruction algorithm. 8. The radiation emitting imaging device of  claim 7  wherein the at least one filtering device includes at least one of a bowtie filter and a flat filter. claim 7 9. The radiation emitting imaging device of  claim 7  wherein the at least one filtering device has a cross-section defined by a first region, a second region, and a center region disposed between the first region and the second region, and wherein a thickness of the first region exceeds a thickness of the center region. claim 7 10. The radiation emitting imaging device of  claim 9  wherein the thickness of the first region equals a thickness of the second region. claim 9 11. The radiation emitting imaging device of  claim 10  wherein the first region and the second region each have a noise index exceeding a noise index of the center region. claim 10 12. The radiation emitting imaging device of  claim 7  incorporated into at least one of a body imaging apparatus and a non-invasive package/baggage inspection apparatus. claim 7 13. The radiation emitting imaging device of  claim 12  wherein the subject positioner includes one of a movable table and a conveyor. claim 12 14. The radiation emitting imaging device of  claim 7  incorporated into a multi-slice helical imaging apparatus. claim 7 15. The radiation emitting imaging device of  claim 7  wherein the at least one filtering device includes non-uniform x-ray reception surface. claim 7 16. The radiation emitting imaging device of  claim 7  wherein the at least one filtering device is configured to reduce HF electromagnetic energy received by the subject. claim 7 17. A cone angle dependent pre-subject filter comprising: means for increasing HF electromagnetic energy flux in a first region corresponding to a first set of rows of a CT detector array;  means for decreasing HF electromagnetic energy flux in a second region corresponding to a second set of rows of the CT detector array. 18. The filter of  claim 17  further comprising means for reducing HF electromagnetic energy dosage to at least one region of the subject. claim 17 19. A method of manufacturing a pre-subject filter for use with a radiation emitting imaging device, the method comprising the steps of: determining a desired noise index level and selecting a filtering material from a bulk having a requisite attenuation coefficient to achieve the desired noise index level;  defining a block of filtering material;  shaping the block to have a linear emission surface; and  fashioning the block to have a curvilinear reception surface. 20. The method of  claim 19  wherein the block includes a general first region, a general second region, and a general center region disposed therebetween and further comprising the steps of defining the first general region and the second general region to each have a thickness exceeding a thickness of the general center region. claim 19 21. The method of  claim 19  wherein the general center region corresponds to a number of detector rows in a center region of a detector assembly and wherein the general first and the general second regions correspond to a number of detector rows in a first outer region and a second outer region of the detector assembly. claim 19 22. The method of  claim 19  further comprising the steps of constructing the block to have a variable thickness. claim 19 23. The method of  claim 19  further comprising the steps of determining a desired photon emission intensity and constructing the block to emit the desired photon emission intensity. claim 19