Patent Number: 
Section: claims

1. A secondary collimator, comprising:a body formed of a high density material; anda continuous spiral slit aperture formed in the body, wherein the continuous spiral slit aperture is oriented with a spirally increasing azimuth angle to enable multiple scatter beams to simultaneously pass through the continuous spiral slit aperture at different scatter angles for extending a range of momenta for which x-ray diffraction (XRD) intensities are measured for a predetermined range of photon intensities. 2. The secondary collimator of claim 1, wherein a first predetermined scatter angle with respect to an axis of the secondary collimator and a second predetermined scatter angle with respect to the axis enables a first scatter detector and a second scatter detector to respectively capture photons scattered from a scan area of an object along predetermined ray paths that pass through the continuous spiral slit aperture. 3. The secondary collimator of claim 1, wherein at least one predetermined scatter angle satisfies:      θ    i    =            tan              -        1              ⁡          (                        a          i                          S          -                      x            v                              )      wherein, ai is a distance of an ith portion of the continuous spiral slit aperture from an axis of the secondary collimator; S is a position (x coordinate) of the secondary collimator to an x-ray source; and xv is an x coordinate of a voxel in which scattering originates. 4. A threat detection system comprising:an x-ray source configured to irradiate an object; anda secondary collimator positioned apart from the x-ray source, the secondary collimator comprising:a body formed of a high density material; anda continuous spiral slit aperture formed in the body, wherein the continuous spiral slit aperture is oriented with a spirally increasing azimuth angle to enable multiple scatter beams to simultaneously pass through the continuous spiral slit aperture at different scatter angles for extending a range of momenta for which x-ray diffraction (XRD) intensities are measured for a predetermined range of photon intensities. 5. The threat detection system of claim 4, wherein a first predetermined scatter angle with respect to an axis of the secondary collimator and a second predetermined scatter angle with respect to the axis enables a first scatter detector and a second scatter detector to respectively capture photons scattered from a scan area of an object along predetermined ray paths that pass through the continuous spiral slit aperture. 6. The threat detection system of claim 4, wherein at least one predetermined scatter angle satisfies:      θ    i    =            tan              -        1              ⁡          (                        a          i                          S          -                      x            v                              )      wherein, ai is a distance of an ith portion of the continuous spiral slit aperture from an axis of the secondary collimator; S is a position (x coordinate) of the secondary collimator to an x-ray source; and xv is an x coordinate of a voxel in which scattering originates. 7. The threat detection system of claim 4, further comprising a plurality of x-ray detectors positioned apart from the x-ray source, wherein the plurality of x-ray detectors comprises a first detector positioned along an axis parallel to a primary beam of radiation and a first scatter detector and a second scatter detector positioned between the first detector and the x-ray source. 8. The threat detection system of claim 7, wherein the secondary collimator is positioned between the first scatter detector and the second scatter detector, the first scatter detector is disposed at a first predetermined scatter angle with respect to the axis and the second scatter detector is disposed at a second predetermined scatter angle with respect to the axis to capture photons scattered from a scan area of the object along predetermined ray paths that pass through the continuous spiral slit aperture. 9. A method comprising:irradiating an object with an x-ray beam using an x-ray source;focusing scatter beams of the x-ray beam using a secondary collimator, wherein the secondary collimator includes a continuous spiral slit aperture that is oriented with a spirally increasing azimuth angle to enable multiple scatter beams to simultaneously pass through the continuous spiral slit aperture at different scatter angles for extending a range of momenta for which x-ray diffraction (XRD) intensities are measured for a predetermined range of photon intensities; anddetecting photons in the scatter beams using at least one scatter detector. 10. The method of claim 9, wherein the at least one scatter detector includes a first scatter detector and a second scatter detector, said detecting photons comprises:detecting at the first scatter detector photons scattered from a scan area of the object along a first path having a first predetermined scatter angle with respect to an axis of the secondary collimator; anddetecting at the second scatter detector photons scattered from the scan area of the object along a second path having a second predetermined scatter angle with respect to the axis, wherein each of the first path and the second path pass through the continuous spiral slit aperture. 11. The method of claim 9, wherein at least one predetermined scatter angle satisfies:      θ    i    =            tan              -        1              ⁡          (                        a          i                          S          -                      x            v                              )      wherein, ai is a distance of an ith portion of the continuous spiral slit aperture from an axis of the secondary collimator; S is a position (x coordinate) of the secondary collimator to the x-ray source; and xv is an x coordinate of a voxel in which scattering originates.