Patent Number: 
Section: claims

1. A CT scanner comprising:at least one source of X-rays within an x-ray spectra;a detector array comprising a plurality of detectors; andan X-ray filter mask arrangement disposed between the at least one source of X-rays and detector array so as to modify the spectra of the X-rays transmitted from the at least one source through the filter mask arrangement to at least some of the detectors so that the X-ray spectra detected by at least one set of detectors is different from the X-ray spectra detected by at least one other set of detectors;wherein the CT scanner has X, Y and Z-axes, wherein the X and Y-axes define a scanning plane, and the Z-axis defines the axis of rotation of the at least one source of X-rays and detector array, and the CT scanner further comprises a processor arrangement configured so as to process signals from the detectors to generate interpolated data so that the set of interpolated data representing interpolated values is provided in accordance with a four point Lagrange interpolation along the X-axis. 2. A CT scanner according to claim 1, wherein the at least one source of X-rays is a source providing x-rays of a first energy spectra, and the filter mask arrangement provides x-rays of a second and different energy spectra so that some of the detectors receive x-rays of the first energy spectra and some of the other detectors receive x-rays of the second energy spectra such that use of the filter mask arrangement converts a single energy scanner into a dual energy scanner. 3. A CT scanner according to claim 1, wherein the at least one source of X-rays is a source providing a first set of x-ray energy spectra, and the filter mask arrangement provides x-rays of a second and different set of x-ray energy spectra so that some of the detectors receive x-rays of the first set of energy spectra, and some of the other detectors receive x-rays of the second set of energy spectra such that use of the filter mask arrangement increases the number of projections associated with different x-ray energy spectra. 4. A CT scanner according to claim 1, wherein the at least one source of X-ray includes an x-ray tube with a flying focal spot. 5. A CT scanner according to claim 1, wherein the X-ray filter mask arrangement is disposed between scanning objects and the detector array. 6. A CT scanner according to claim 1, wherein the X-ray filter mask arrangement is disposed between scanning objects and the at least one source of X-rays. 7. A CT scanner according to claim 1, wherein the X-ray filter mask arrangement includes a checker board pattern. 8. A CT scanner according to claim 1, wherein the CT scanner further includes a processor arrangement configured so as to interpolate data received by the detectors corresponding to one X-ray spectrum to generate the data corresponding to the remaining detectors that correspond to other X-ray spectra and apply an image reconstruction algorithm using the interpolated data for reconstruction. 9. A CT scanner according to claim 8, wherein the CT scanner has an X, Y and Z-axes, wherein the X and Y-axes define a scanning plane, and the Z-axis defines the axis of rotation of the at least one source of X-rays and detector array, and the CT scanner further comprises a processor arrangement configured so as to process signals from the detectors to generate interpolated data so that the set of interpolated data representing interpolated values is provided in accordance with an interpolation technique along the Z-axis. 10. A CT scanner according to claim 8, wherein the CT scanner has an X, Y and Z-axes, wherein the X and Y-axes define a scanning plane, and the Z-axis defines the axis of rotation of the at least one source of X-rays and detector array, and the CT scanner further comprises a processor arrangement configured so as to process signals from the detectors to generate interpolated data so that the set of interpolated data representing interpolated values is provided in accordance with a four point Lagrange interpolation along the X-axis. 11. A CT scanner according to claim 1, wherein the CT scanner further includes a processor arrangement configured so as to apply a reconstruction algorithm with steps modified to reconstruct data received by the detectors corresponding to one X-ray spectrum. 12. A CT scanner according to claim 11, wherein the reconstruction algorithm is a nutated slice reconstruction algorithm.