Systems and methods for high-Z threat alarm resolution

We claim: 1. A second stage screening system to resolve a threat alarm detected in a cargo by a first stage screening system, wherein said first stage screening system generates threat sensitivity vectors, said second stage system comprising: a first muon detector set placed above the cargo to generate first muon information comprising a first coordinate and an angle of incidence of incoming muons; a second muon detector set placed below the cargo to generate second muon information comprising an actual coordinate and an actual angle of exit of the incoming muons; a detector to measure a momentum of said incoming muons; and, a processing unit, wherein said processing unit: receives threat sensitivity vectors determined from the first stage; operates a positioning system that positions a high-Z threat within the cargo relative to said first and second muon detectors; employs said first and second muon information and threat sensitivity vectors to confirm a presence of high-Z materials; and uses an approximate Z distribution and density of a content of said cargo to compensate for a presence of cargo content in a vicinity of said high-Z threat. 2. The second stage system of claim 1 , wherein said first and second muon detectors are Thin Gap Chamber (TGC) detectors. 3. The second stage system of claim 1 , wherein said first and second muon detectors are Thick Gas Electron Multiplier (THGEM) detectors. 4. The second stage system of claim 1 , wherein said threat sensitivity vectors comprise: a number of suspected high-Z threats; an approximate shape and an approximate size of said suspected high-Z threats; dimensional information, density information, and approximate Z distribution of the content of said cargo; and an area or a volume of suspected high-Z threats along a path length of a radiation beam employed for scanning said cargo in said first stage. 5. The second stage system of claim 1 , wherein the positioning system comprises: a range sensor to detect a position of the cargo relative to a center of said first and second muon detectors; and an indicator to assist said cargo in attaining said position. 6. The second stage system of claim 5 , wherein said indicator comprises at least one of: a traffic light where green indicates a driver to continue moving, yellow to prepare to stop and red to stop said cargo; and a digital display showing the distance to stop said cargo. 7. The second stage system of claim 1 , wherein the positioning system comprises: a range sensor to detect a position of said cargo relative to a center of said first and second muon detectors; and a detector-positioning system to assist said first and second muon detectors in attaining said position. 8. The second stage system of claim 1 , wherein said second muon detector is placed inside a trench in a ground below said cargo. 9. The second stage system of claim 1 , wherein said cargo is driven over a ramp and wherein said second muon detector is placed within the ramp. 10. The second stage system of claim 1 , wherein said second muon detector is sized to be placed in a gap between the wheels of said cargo and two sets of muon detectors are placed on either side of said cargo. 11. The second stage system of claim 10 , wherein said cargo is raised over two ramps. 12. The second stage system of claim 1 , wherein said second muon detector is positioned vertically on one side of said cargo and further comprising a third muon detector positioned vertically on the other side of said cargo. 13. The second stage system of claim 12 , further comprising at least two layers of fourth muon detectors sized to be placed in a gap between wheels of said cargo. 14. The second stage system of claim 12 , wherein said cargo is raised over two ramps. 15. The second stage system of claim 1 , wherein said second muon detector has a different size than said first muon detector. 16. The second stage system of claim 1 , wherein said first and second muon detectors comprise at least two layers of detectors that are parallel. 17. The second stage system of claim 16 , wherein said at least two layers of first and second muon detectors are spaced at a distance ranging from approximately 50 mm to 500 mm. 18. The second stage system of claim 1 , wherein said first and second muon detectors have dimensions within a range of approximately 2 m×3 m (length) to 3 m×4 m (width). 19. The second stage system of claim 1 , wherein said first and second muon detectors have dimensions within a range of approximately 3 m×4 m (length) to 3 m×4 m (width). 20. The second stage system of claim 1 , wherein said processor unit resolves the threat alarm by restricting a muon scan data analysis to an area or volume of said high-Z threat along a path length of a radiation beam employed for scanning said cargo in said first stage. 21. The second stage of claim 1 , wherein said first stage is a radiation portal monitor. 22. A second stage screening system to resolve a threat alarm detected in a cargo by a first stage screening system, the second stage screening system comprising: a first muon detector set placed above the cargo to generate first muon threat information and first muon no-threat information; a second muon detector set placed below the cargo to generate second muon threat information and second muon no-threat information; a detector to measure a momentum of said incoming muons; and a processing unit, wherein said processing unit: receives threat sensitivity vectors determined from the first stage; operates a positioning system that centers a high-Z threat location within the cargo relative to said first and second muon detectors to generate said first and second muon threat information; operates the positioning system that centers a second location within the cargo relative to said first and second muon detectors to generate said first and second no-threat information, wherein the second location has no high-Z threat but has density and Z distribution similar to the high-Z threat location; and, employs said first and second muon threat and no-threat information and threat sensitivity vectors to confirm a presence of high-Z threat. 23. The second stage system of claim 22 , wherein said first muon threat information comprises a first coordinate and an angle of incidence of incoming muons and wherein said second muon threat information comprises an actual coordinate and an actual angle of exit of the incoming muons. 24. The second stage system of claim 22 , wherein said first muon no-threat information comprises a first coordinate and an angle of incidence of incoming muons and wherein said second muon no-threat information comprises an actual coordinate and an actual angle of exit of the incoming muons. 25. The second stage system of claim 22 , wherein the processing unit subtracts the first and second muon no-threat information from the first and second muon threat information to confirm the presence of high-Z threat. 26. The second stage system of claim 22 , wherein said first and second muon detectors are Thin Gap Chamber (TGC) detectors. 27. The second stage system of claim 22 , wherein said first and second muon detectors are Thick Gas Electron Multiplier (THGEM) detectors. 28. The second stage system of claim 22 , wherein said threat sensitivity vectors comprise: a number of suspected hi