Patent Number: 050769936
Section: claims

1. Contraband detection apparatus comprising: means for irradiating an object under investigation with a collimated pulsed beam of fast neutrons having a pulse width of less than 5 nanoseconds;  first detecting means for detecting gamma rays emitted from said object as a result of interactions between a neutron from said pulsed beam of fast neutrons and an atomic nucleus within said object;  identifying means for identifying a particular atomic element which gives rise to a particular detected gamma ray;  locating means for determining the approximate location within said object of the origin of each gamma ray detected by said detecting means without the necessity of detecting associated particles; and  second detection means responsive to said irradiating means, identifying means and locating means for detecting a distribution and concentration of at least one atomic element within said object indicative of the presence of contraband.  measuring means for measuring the energy of each detected gamma ray, and  means responsive to said measured energy for identifying the particular atomic element from which the detected gamma ray originated.  means for generating a highly collimated pulsed beam of fast neutrons, and  means for moving said object relative to said beam so that said fast neutrons enter a prescribed volume of said object.  means for generating a recurring short pulse of less than five nanoseconds of directed fast neutrons;  means for scanning an object under investigation for the presence of contraband with said recurring short pulse of directed fast neutrons, each of said fast neutrons possibly reacting with a particular atomic nucleus present within said object, thereby generating gamma rays having an energy characteristic of the particular atomic nucleus with which said fast neutrons react;  means for detecting the gamma rays produced by neutrons in reaction with atomic nuclei, said detection means including means for detecting the energy of a particular gamma ray and the time of its detection relative to the time of generation of said short pulse of fast neutrons; and  means for determining a particular volume element, or voxel, within said object from which a particular detected gamma ray originated without the necessity of detecting associated particles, such as alpha particles, that may be generated by the means for generating the fast neutrons, said detected gamma ray thereby providing a direct indication of the particular atomic nucleus in said particular voxel; the particular atomic nuclei, present in a sample of the voxels within said object providing a direct indication of the abundances and distributions of particular elements within said object; a prescribed abundance and distribution of particular elements within said object providing a direct indication of the presence of contraband within said object.  (a) means for scanning an object under investigation with a pulsed beam of highly collimated fast neutrons by controllably directing said pulsed beam at a prescribed volume of said object, said pulsed beam of highly collimated fast neutrons having a pulse width of less than 5 nanoseconds;  (b) means for detecting gamma rays having prescribed energies emitted from said prescribed volume of said object as a result of interactions between pulsed fast neutrons from said pulsed beam of fast neutrons and atomic nuclei of particular elements within said object, said prescribed energies corresponding to atomic elements commonly found in contraband; and  (c) means responsive to said detecting means for ascertaining whether a distribution and concentration of at least one atomic element indicative of contraband exists within said prescribed volume, said means performing its contraband detecting function without the necessity of detecting associated particles, such as alpha particles, that may be generated coincident with the pulsed fast neutrons.  (a) directing a pulsed beam of fast neutrons, laterally limited, towards an object under investigation said pulsed beam having a pulse width of less than 5 nanoseconds; and  (b) detecting gamma rays having prescribed energies emitted from a prescribed volume of said object as a result of interactions between pulsed fast neutrons from said pulsed beam of fast neutrons and atomic nuclei of a particular elements within said prescribed volume, said prescribed energies corresponding to atomic elements commonly found in contraband. 2. The contraband detection apparatus as set forth in claim 1 wherein said identifying means comprises: 3. The contraband detection apparatus as set forth in claim 2 wherein said irradiating means comprises: 4. The contraband detection apparatus as set forth in claim 3 wherein said irradiating means further includes means for creating relative motion between said object and said pulsed beam so that a plurality of prescribed volumes within said object are irradiated in turn with said pulsed beam, whereby a desired portion of said object comprising said plurality of prescribed volumes has said pulsed beam pass therethrough. 5. The contraband detection apparatus as set forth in claim 3 wherein said locating means includes means for measuring the time of flight of a particular neutron within said pulsed beam up to the approximate time at which said particular neutron interacts with an atomic nucleus within said object, said time of flight measurement providing a measure of the depth at which said particular gamma ray was produced within said object. 6. The contraband detection apparatus as set forth in claim 5 wherein said time of flight measurement means includes means for measuring the time between the generation of a pulsed neutron within said beam and the detection of a gamma ray resulting from the interaction of said pulsed neutron with an atomic nucleus, said measured time including both the time of flight of said pulsed neutron from its source to its interaction with the atomic nucleus, and the time of flight of said gamma ray from said nucleus to the time of its detection by said detecting means, the time of flight of said neutron being much greater than the time of flight of said gamma ray. 7. The contraband detection apparatus as set forth in claim 6 further including correction means for correcting said time of flight measurement to minimize the effects of the time of flight of said gamma ray, whereby said time of flight measurement includes primarily the time it takes said pulsed neutron to travel from its source to the atomic nucleus with which it interacts. 8. The contraband detection apparatus as set forth in claim 6 wherein said time of flight measurement means includes means for measuring the time between the detection of a gamma ray and the generation of a pulsed neutron. 9. The contraband detection apparatus as set forth in claim 5 wherein said second detection means includes means for electronically creating a density image of particular elements within said object indicative of contraband, said density image being created directly from the identity of said atomic elements identified by said identifying means and the location of said atomic elements determined by said locating means. 10. The contraband detection apparatus as set forth in claim 9 wherein the particular elements within said object indicative of contraband comprise oxygen, nitrogen or carbon. 11. The contraband detection apparatus as set forth in claim 10 wherein the particular elements within said object indicative of contraband further include hydrogen or chlorine. 12. The contraband detection apparatus as set forth in claim 10 wherein the contraband detected by said apparatus is selected from the group comprising explosives or narcotics. 13. A contraband detection system comprising: 14. The contraband detection system as set forth in claim 13 wherein said gamma ray detecting means comprises an array of detectors positioned proximal said object. 15. The contraband detection system as set forth in claim 13 wherein said voxel determining means comprises means for measuring the approximate time of flight of a particular pulse of high energy neutrons within said short pulse of directed high energy neutrons from the time said particular pulse is generated until a neutron within said pulse interacts with an atomic nucleus, the location of said voxel thus being determinable from the known kinematics associated with said short pulse of directed high energy neutrons and said measured time of flight. 16. The contraband detection system as set forth in claim 15 wherein said means for measuring the time of flight includes electronic means for measuring the time between the generation of a particular pulse of high energy neutrons and the detection of a gamma ray by said gamma ray detecting means. 17. The contraband detection system as set forth in claim 16 wherein said recurring short pulse of high energy neutrons is generated every T seconds, and wherein said electronic measuring means measures the time between the detection of a gamma ray by said gamma ray detecting means, and the subsequent generation of the next pulse of high energy neutrons. 18. The contraband detection system as set forth in claim 13 wherein said means for scanning comprises means for controllably directing a specified number of short pulses of said high energy neutrons at respective volumes of said object fronting said high energy neutron generating means, said short pulses of high energy neutrons penetrating into said object through said respective volumes. 19. The contraband detection system as set forth in claim 18 wherein said scanning means includes means for creating controlled relative motion between said object and said directed high energy short pulse neutron generating means, whereby said respective volumes of said object have a short neutron pulse pass therethrough in a controlled fashion. 20. A system for detecting contraband comprising: 21. The system for detecting contraband as set forth in claim 20 wherein said scanning means includes means for determining the approximate time of flight of a burst of pulsed fast neutrons within said pulsed beam of fast neutrons up until the time of interaction with atomic nuclei within said object, said interaction causing said gamma rays to be produced, said time of flight providing a measure of the depth within said object at which the gamma rays originated, and hence a measure of the depth within the object along a path of said pulsed beam of fast neutrons at which a particular atomic element, commonly found in contraband, is located, said time of flight thereby defining a particular volume element, or voxel, of the object within which said particular atomic element is found. 22. The system for detecting contraband as set forth in claim 21 wherein said means for ascertaining the distribution and concentration of said at least one atomic element indicative of contraband includes means for combining the time-of-flight information determined by said scanning means with the detected gamma ray information from said gamma ray detecting means to produce a two-dimensional energy-time spectrum, from which two-dimensional energy-time spectrum the approximate location of specified atomic elements within said object can be fairly deduced. 23. A method of detecting contraband comprising the steps of: 24. The method of detecting contraband as set forth in claim 23 further including repeating steps (a) and (b) for a sufficiently large number of prescribed volumes of the object under investigation so as to ascertain whether a distribution and concentration of at least one atomic element indicative of contraband exists within said object. 25. The method of detecting contraband as set forth in claim 24 wherein step (b) includes measuring the energy of the detected gamma rays and the time at which the gamma rays are detected relative to the time at which the pulsed fast neutrons are generated, and obtaining a two-dimensional energy-time spectrum from said energy and time measurements for the prescribed volume of said object receiving said pulsed beam of fast neutrons. 26. The method of detecting contraband as set forth in claim 25 wherein said step of measuring the time at which gamma rays are detected comprises determining the approximate time of flight of a burst of pulsed neutrons in said laterally limited pulsed beam of fast neutrons up until the time said burst interacts with atomic nuclei and causes a gamma ray to be produced, and correlating said time of flight to an approximate depth within said object where the atomic nuclei are located along the path of said pulsed neutron beam, said correlation allowing said two-dimensional energy-time spectrum to be effectively converted into a two-dimensional energy-location spectrum.