Process for neutron interrogation of objects in relative motion or of large extent
First Claim
1. A process for exposure and measurement of neutron induced effects on objects to be examined comprising the steps of:
- (a) providing an exposure and measurement apparatus comprising a neutron interrogation system with an elongated neutron source selected from the group consisting of radionuclides and an electrically powered nuclear reaction confining device with steady or pulsed output;
(b) operating the exposure and measurement apparatus to examine a plurality of objects selected from the group consisting of objects in relative motion with respect to the exposure and measurement apparatus and objects of large size with respect to the exposure and measurement apparatus by using the neutron interrogation system to provide a neutron emission having substantially linear topology and an initially uniform flux along a longitudinal axis of the source for neutron interrogation of the objects to be interrogated, the neutron emission being conveyed at a rate compatible with specifications selected from the group consisting of industrial production line specifications and security checking system performance specifications;
wherein the objects to be scanned are arranged to move along a locus or parallel set of loci that either is parallel to the longitudinal axis of the source or traces a spiral about the longitudinal axis of the source while progressing from a first end of the neutron interrogation system to a second end of the neutron interrogation system to thereby extend or dilate the duration of immersion in and exposure to a field of neutrons generated by the source so as to effectively accumulate dose and corresponding neutron interactions for measurement by an array of nuclear physics scanning station sensors and data processing instrumentation;
wherein the nuclear physics sensors and data processing instrumentation multiplex individual sensor data to provide refined results and accumulate the refined results so as to associate a statistical measurement result with a single object or zone that travels through the neutron interrogation system in order to identify any object or zone that has an anomalous signature of measured parameters; and
wherein the plurality of objects are contained within a large object having a size and mass great to make expedient moving the exposure and measurement apparatus concurrently with the large object so as to mitigate stop-start movements of the container relative to the operating neutron interrogation system.
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Abstract
The invention relates to the fact that a common industrial neutron interrogation screening requirement is that a high throughput rate be accommodated by the screening system. The accumulation of elemental abundance ratio spectral data to minimize statistical uncertainty is a function of the neutron flux passing through the subject. If the subject passes through a neutron beam, with a strictly limited time window for exposure, the flux must be sufficient to accumulate the required statistics. The level of neutron flux necessary may exceed the cost effective limits of the selected neutron source means. Exposure time window dilation is disclosed through a class of system configurations which become practical for reduction to practice by utilization of linear neutron source topology neutron generators. This disclosure is concerned with example embodiments which utilize the length, width, thickness and segmentation of the source emission zone within an appropriate neutron source.
29 Citations
8 Claims
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1. A process for exposure and measurement of neutron induced effects on objects to be examined comprising the steps of:
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(a) providing an exposure and measurement apparatus comprising a neutron interrogation system with an elongated neutron source selected from the group consisting of radionuclides and an electrically powered nuclear reaction confining device with steady or pulsed output; (b) operating the exposure and measurement apparatus to examine a plurality of objects selected from the group consisting of objects in relative motion with respect to the exposure and measurement apparatus and objects of large size with respect to the exposure and measurement apparatus by using the neutron interrogation system to provide a neutron emission having substantially linear topology and an initially uniform flux along a longitudinal axis of the source for neutron interrogation of the objects to be interrogated, the neutron emission being conveyed at a rate compatible with specifications selected from the group consisting of industrial production line specifications and security checking system performance specifications; wherein the objects to be scanned are arranged to move along a locus or parallel set of loci that either is parallel to the longitudinal axis of the source or traces a spiral about the longitudinal axis of the source while progressing from a first end of the neutron interrogation system to a second end of the neutron interrogation system to thereby extend or dilate the duration of immersion in and exposure to a field of neutrons generated by the source so as to effectively accumulate dose and corresponding neutron interactions for measurement by an array of nuclear physics scanning station sensors and data processing instrumentation; wherein the nuclear physics sensors and data processing instrumentation multiplex individual sensor data to provide refined results and accumulate the refined results so as to associate a statistical measurement result with a single object or zone that travels through the neutron interrogation system in order to identify any object or zone that has an anomalous signature of measured parameters; and wherein the plurality of objects are contained within a large object having a size and mass great to make expedient moving the exposure and measurement apparatus concurrently with the large object so as to mitigate stop-start movements of the container relative to the operating neutron interrogation system. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A process for exposure and measurement of neutron induced effects on objects to be examined comprising the steps of:
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(a) providing an exposure and measurement apparatus comprising a neutron interrogation system with an elongated neutron source selected from the group consisting of radionuclides and an electrically powered nuclear reaction confining device with steady or pulsed output; (b) operating the exposure and measurement apparatus to examine a plurality of objects selected from the group consisting of objects in relative motion with respect to the exposure and measurement apparatus and objects of large size with respect to the exposure and measurement apparatus by using the neutron interrogation system to provide a neutron emission having substantially linear topology and an initially uniform flux along a longitudinal axis of the source for neutron interrogation of the objects to be interrogated, the neutron emission being conveyed at a rate compatible with specifications selected from the group consisting of industrial production line specifications and security checking system performance specifications; wherein the objects to be scanned are arranged to move along a locus or parallel set of loci that either is parallel to the longitudinal axis of the source or traces a spiral about the longitudinal axis of the source while progressing from a first end of the neutron interrogation system to a second end of the neutron interrogation system to thereby extend or dilate the duration of immersion in and exposure to a field of neutrons generated by the source so as to effectively accumulate dose and corresponding neutron interactions for measurement by an array of nuclear physics scanning station sensors and data processing instrumentation; wherein the nuclear physics sensors and data processing instrumentation multiplex individual sensor data to provide refined results and accumulate the refined results so as to associate a statistical measurement result with a single object or zone that travels through the neutron interrogation system in order to identify any object or zone that has an anomalous signature of measured parameters; and wherein a relationship between a flux level of neutrons passing through an object being interrogated and duration of transit through a flux field is set with respect to available neutron intensity or strength of the neutron source so that a specific neutron emission rate per unit of length in a transit direction or measurement zone is integrated or summed to be equivalent or greater than a dose accumulated from a collimated beam from a single point source of much greater intensity.
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Specification