Apparatus and method for detecting contraband using fast neutron activation

US 5,098,640 A
Filed: 01/10/1990
Issued: 03/24/1992
Est. Priority Date: 01/10/1990
Status: Expired due to Term

First Claim

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1. A method of detecting contraband within an object under investigation comprising:

generating a beam of fast neutrons;

irradiating said object with said beam of fast neutrons, said fast neutrons interacting with atomic nuclei of the elements contained within said object to produce a gamma-ray spectrum having spectral lines characteristic of the elements contained within said object;

measuring the spectral lines of said gamma-ray spectrum using a multiplicity of gamma-ray detectors judiciously positioned around said object;

detecting the number of neutrons that pass through said object without interacting substantially with atomic nuclei within said object;

determining the spatial and density distributions of the atomic nuclei of the elements contained within said object from the measured gamma-ray spectrum obtained from said multiplicity of gamma-ray detectors and the number of neutrons that pass through said object;

comparing the measured spatial and density distributions of the atomic nuclei of the elements within said object with known spatial and density distributions of atomic nuclei for elements characteristic of contraband; and

determining that contraband is present within said object when said comparison indicates a substantial match.

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Abstract

An apparatus and method non-invasively interrogates an object to detect contraband. The apparatus irradiates the object with fast neutrons of energy greater than 6.7 MeV, and measures the ensuing gamma-ray spectra. Irradiation of the object is accomplished by producing a neutron beam and moving the interrogated object stepwise or continuously relative to the beam. The nuclear interactions of highly penetrating neutrons within the irradiated volume of the object give rise to energetic nuclear-species characteristic gamma-rays. The energy and intensity of the emitted gamma-rays provide information relative to the spatial and density distributions of the gamma-ray sources, i.e., the specific atomic nuclei within the object. From this information, three-dimensional images of the atomic nuclei spatial and density distributions are inferred. Such three-dimensional images allow a decision to be made as to the presence of contraband. Measurements are made using arrays of gamma-ray scintillator detectors. A decision analysis based on statistical methods (e.g., discriminant analysis) or an artificial neural system, or other expert system, facilitates a low false alarm rate. One embodiment of the apparatus includes neutron beam collimator means to define and limit the irradiation volume of the object, and auxiliary neutron shielding means to attenuate the neutrons in other than desired neutron beam direction(s). Another embodiment includes an X-ray system and combines electron density information obtained from an X-ray image of the object with the spatial and density distribution information of the gamma-ray sources in order to further enhance the decision analysis.

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35 Claims

1. A method of detecting contraband within an object under investigation comprising:
- generating a beam of fast neutrons;
  
  irradiating said object with said beam of fast neutrons, said fast neutrons interacting with atomic nuclei of the elements contained within said object to produce a gamma-ray spectrum having spectral lines characteristic of the elements contained within said object;
  
  measuring the spectral lines of said gamma-ray spectrum using a multiplicity of gamma-ray detectors judiciously positioned around said object;
  
  detecting the number of neutrons that pass through said object without interacting substantially with atomic nuclei within said object;
  
  determining the spatial and density distributions of the atomic nuclei of the elements contained within said object from the measured gamma-ray spectrum obtained from said multiplicity of gamma-ray detectors and the number of neutrons that pass through said object;
  
  comparing the measured spatial and density distributions of the atomic nuclei of the elements within said object with known spatial and density distributions of atomic nuclei for elements characteristic of contraband; and
  
  determining that contraband is present within said object when said comparison indicates a substantial match.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The method as set forth in claim 1 wherein the step of measuring the spectral lines of the gamma-ray spectrum includes determining the approximate origin within said object of the gamma-rays that comprise said measured spectral lines of gamma-rays based on the location of a particular detector within said multiplicity of gamma-ray detectors that detects said gamma rays;
    - and, in combination with the number of neutrons that pass through said object without interacting substantially with any intervening atomic nuclei, formulating therefrom an approximate spatial and density distributions of the atomic nuclei of the elements contained within said object.
  - 3. The method as set forth in claim 2 wherein the step of irradiating said object with said beam of fast neutrons comprises passing said object in front of said beam of fast neutrons.
  - 4. The method as set forth in claim 3 further including collimating said beam of fast neutrons to a desired cross-sectional shape prior to irradiating said object therewith.
  - 5. The method as set forth in claim 4 further including controlling said desired cross-sectional shape to examine a desired voxel of said object as said object is passed in front of said beam.
  - 6. The method as set forth in claim 4 wherein the step of measuring said spectral lines comprises determining the presence of at least one spectral line attributable to the presence of at least one element from the group hydrogen, carbon, nitrogen and oxygen.
  - 7. The method as set forth in claim 6 further including determining the presence of spectral lines attributable to the presence of chlorine within said object.

8. A method of detecting contraband in an object under investigation comprising:
- generating a collimated beam of fast neutrons;
  
  irradiating at least one section of said object with said collimated beam of fast neutrons, said fast neutrons interacting with atomic nuclei within said irradiated section to produce a gamma-ray spectrum having spectral lines characteristic of the elements contained within said at least one irradiated section;
  
  measuring the gamma-ray spectrum produced by said irradiation by detecting gamma-rays originating within said at least one section using a multiplicity of gamma-ray detectors judiciously positioned around said object;
  
  measuring the neutron flux that passes through said at least one section, said neutron flux comprising the number of neutrons that pass through said at least one section without interacting substantially with atomic nuclei;
  
  determining whether said measured gamma-ray spectrum and neutron flux indicate the combined presence of at least a plurality of elements from the group of elements consisting of hydrogen, carbon, nitrogen, and oxygen; and
  
  , if soidentifying said at least one section as one that possibly contains contraband.
- View Dependent Claims (9, 10, 11)
- - 9. The method as set forth in claim 8 wherein the step of determining whether said measured gamma-ray spectrum and neutron flux indicate the combined presence of at least a plurality of hydrogen, carbon, nitrogen or oxygen includes determining the spatial and density distributions of the various elements present within said at least one section, and analyzing said spatial and density distributions to help identify the presence of contraband within said at least one section.
  - 10. The method as set forth in claim 9 further including obtaining an electron density image of said at least one section within said object, and using said electron density image to further aid in identifying the presence of contraband within said at least one section.
  - 11. The method as set forth in claim 8 wherein the step of determining whether said measured gamma-ray spectrum indicates the combined presence of at least a plurality of hydrogen, carbon, nitrogen or oxygen includes determining whether said measured gamma-ray spectrum contains spectral lines having energies of approximately 2.2, 2.3, 4.4, 5.1 and 6.1 MeV.

12. Apparatus for detecting a prescribed contraband material within an object under investigation comprising:
- means for generating high energy neutrons;
  
  means for irradiating said object with said high energy neutrons, said neutrons interacting with the nuclei of atoms of elements contained within said object, thereby causing gamma rays having a characteristic energy to be emitted, said characteristic energy uniquely identifying a particular element from which the gamma ray is emitted, the number of emitted gamma rays of a particular characteristic energy being a function of the spatial and density distributions of the corresponding particular element within said object;
  
  means for detecting the number of gamma rays emitted from the object at a plurality of prescribed characteristic energies, said means including a multiplicity of gamma-ray detectors judiciously positioned around said object;
  
  means for detecting the number of neutrons that pass through said object without interacting substantially with atomic nuclei of the elements within said object, the number of said passed-through neutrons providing an inverse measure of the density of atomic nuclei within said object;
  
  said gamma ray and neutron detection means thereby providing a measure of the spatial and density distributions of a corresponding plurality of elements within said object; and
  
  means for determining whether the measured spatial and density distributions of said plurality of elements corresponds to said prescribed contraband material;
  
  whereby the presence of said prescribed contraband material within said object can be detected.
- View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 13. Apparatus as set forth in claim 12 wherein said gamma ray detecting means includes means for detecting a particular portion of said object from which a particular gamma ray originates, said determining means providing mapping means for generating a map of the densities of said plurality of elements within said object, said map providing an indication of the density distribution of said plurality of elements within said object, said density distribution thereby providing an indication of the relative shape of a material within said object containing said plurality of elements.
  - 14. Apparatus as set forth in claim 13 wherein said mapping means includes means for generating a map of the spatial distributions of said plurality of elements within said object.
  - 15. Apparatus as set forth in claim 13 wherein said mapping means includes means for generating an X-ray image of said object.
  - 16. Apparatus as set forth in claim 12 wherein said neutron beam generating means generates neutrons having an energy greater than 6.7 MeV.
  - 17. Apparatus as set forth in claim 16 wherein said prescribed energies of the gamma rays detected by said detecting means correspond to the presence within said object of at least two of the following elements:
    - nitrogen, carbon, oxygen, and hydrogen.
  - 18. Apparatus as set forth in claim 16 wherein said prescribed energies of the gamma rays detected by said detecting means are 2.2, 2.3, 4.4, 5.1, and 6.1 MeV.
  - 19. Apparatus as set forth in claim 12 wherein said beam directing means includes means for scanning said object with said beam.
  - 20. Apparatus as set forth in claim 16 wherein said means for generating high energy neutrons includes means for forming a beam of said high energy neutrons and means for moving said object through said beam.
  - 21. Apparatus as set forth in claim 20 wherein said means for forming said beam of high energy neutrons includes collimator means for directing said beam at a prescribed section of said object as said object moves through said beam.
  - 22. Apparatus as set forth in claim 21 wherein said collimator means directs said beam at a narrow slice of said object as said object moves through said beam.
  - 23. Apparatus as set forth in claim 22 wherein said multiplicity of gamma-ray detectors comprise an array of detectors, each detector of said array being selectively positioned to detect gamma rays emitted from the prescribed section of said object irradiated with said neutron beam.
  - 24. Apparatus as set forth in claim 23 wherein said array of detectors include scintillation crystals coupled to photomultipliers.

25. Apparatus for non-invasively detecting contraband in an object under investigation comprising:
- means for generating fast neutrons;
  
  means for irradiating a prescribed portion of said object with said fast neutrons, the interactions of said fast neutrons with atomic nuclei within said irradiated portion of said object giving rise to a gamma-ray spectrum having spectral lines that comprise a unique signature of the nuclear species contained in said irradiated portion of said object;
  
  means for measuring the spectral lines of said gamma-ray spectrum to determine spatial and density distributions of the atomic nuclei of the elements that are contained within said irradiated portion of said object, said spectral line measuring means including a multiplicity of gamma-ray detectors selectively positioned relative to said object so as to sense gamma-rays emitted therefrom;
  
  neutron detection means positioned behind said object for detecting fast neutrons that pass through the irradiated portion of said object without interacting substantially with atomic nuclei therein, the number of fast neutrons that detected providing an additional measure of the spatial and density distribution of atomic nuclei within the irradiated portion of said object; and
  
  means for determining whether said spatial and density distributions of atomic nuclei correspond to contraband.
- View Dependent Claims (26, 27, 28, 29, 30, 31, 32, 33, 34, 35)
- - 26. Apparatus as set forth in claim 25 wherein said multiplicity of gamma-ray detectors are positioned relative to said object so that the number of gamma-rays detected by each detector combine to provide a three dimensional map of the atomic nuclei distribution contained in said object.
  - 27. Apparatus as set forth in claim 26 further includingmeans for collimating said fast neutrons in a beam of a desired shape;
    - andmeans for controllably moving the object being irradiated in front of said collimated beam so that only desired portions of said object are irradiated by said beam at any given instant of time.
  - 28. Apparatus as set forth in claim 27 wherein said collimating means collimates said beam of fast neutrons into a fan beam having a rectangular cross section, said rectangular cross section being wide in a first dimension and narrow in a second dimension, said fan beam thereby irradiating a narrow slice of said object as said object moves in front of said beam, the number of gamma-rays detected by each detector at any given instant of time combining to provide a three dimensional map of the atomic nuclei distribution contained in the irradiated slice of said object.
  - 29. Apparatus as set forth in claim 28 wherein said moving means moves said object in front of said collimated beam at a constant speed.
  - 30. Apparatus as set forth in claim 28 wherein said moving means moves said object in front of said collimated beam with a stepwise motion.
  - 31. Apparatus as set forth in claim 25 wherein said means for measuring the spectral lines measures spectral lines that evidence the presence within said object of a plurality of elements characteristic of contraband, said plurality of elements belonging to the group comprising hydrogen, carbon, nitrogen and oxygen.
  - 32. Apparatus as set forth in claim 26 further including means for producing an electron density map of the object under investigation, said electron density map and said atomic nuclei distribution map both providing information to said determining means for determining the presence of contraband within said object.
  - 33. Apparatus as set forth in claim 32 wherein said determining means comprises electronic processing means for automatically comparing the nuclear distribution map and the electron density map obtained from the object under investigation with known corresponding maps of prescribed contraband, and for providing an indication whenever said comparison indicates a substantial match therebetween.
  - 34. Apparatus as set forth in claim 33 wherein said electronic processing means includes an electronic neural network trained to distinguish the nuclear distribution maps and electron density map of contraband from corresponding maps of non-contraband.
  - 35. Apparatus as set forth in claim 34 wherein the object under investigation comprises airline baggage and the contraband being detected comprises explosives.

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Current Assignee
Rapiscan Laboratories Incorporated (OSI Systems Incorporated)
Original Assignee
Science Applications International Corporation
Inventors
Gozani, Tsahi, Shea, Patrick M., Sawa, Z. Peter
Primary Examiner(s)
Hunt, Brooks H.
Assistant Examiner(s)
Voss, Frederick H.

Application Number

US07/463,025
Time in Patent Office

804 Days
Field of Search

376/159, 376/165, 376/166
US Class Current

376/166
CPC Class Codes

G01V 5/20 Detecting prohibited goods,...

G01V 5/234 Measuring induced radiation...

Apparatus and method for detecting contraband using fast neutron activation

First Claim

15 Assignments

0 Petitions

Accused Products

Abstract

322 Citations

35 Claims

Specification

Solutions

Use Cases

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Apparatus and method for detecting contraband using fast neutron activation

First Claim

15 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

322 Citations

35 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links