Patent Number: 053735382
Section: claims

1. A system for detecting a substance liable to be contained in an object, comprising: a source of irradiation to irradiate said object with neutrons;  at least one gamma radiation detector to detect gamma radiation emitted by said object;  an electronic processor to process signals supplied by said gamma radiation detector, said electronic processor being provided for:  counting the gamma photons corresponding to each line i of a plurality of characteristic lines of at least one chemical element of said substance;  determining, for each line i, a false detection probability PFi for the chemical element associated with said line, wherein the probability PFi is the probability that the detected signal, corresponding to the said line i, is due to a background noise;  determining the product of these false detection probabilities;  comparing said product with a threshold fixed by the system user; and  notifying said user that the product is below the threshold fixed by said user, the object then being assumed to contain the substance.  determining, for each line i, an information quantity Ii relative to line i and defined by the formula: ##EQU11## determining the sum of these information quantities; comparing said sum with a threshold fixed by the system user; and  notifying said user if said sum exceeds the threshold with which it is compared, the object then being assumed to contain the substance.  determining, for each line i, an information quantity Ii relative to said line i and defined by the formula: ##EQU12## in which K and a are stored functions of a background noise M'2i relative to the line i and N1i is the integral part of the difference Ni-M'2i, Ni representing the count, during a time Dt, which corresponds to the line i and which is due to nuclear reactions induced by neutrons and also to the background noise M'2i relative to the line i and for the time Dt;  determining the sum of these information quantities;  comparing said sum with a threshold fixed by the system user; and  notifying said user if said sum exceeds the threshold with which it is compared, the object then being assumed to contain the substance.  irradiating the object with an irradiation source;  detecting gamma radiation emitted by said object with a detector;  processing the signal supplied by said detector, said processing including:  counting the gamma photons corresponding to each line i of a plurality of characteristic lines of at least one chemical element of the substance;  determining, for each line i, a false detection probability PFi for the chemical element associated with said line, wherein the probability PFi is the probability that the detected signal, corresponding to the said line i, is due to a background noise;  determining the product of these false detection probabilities;  comparing said product with a threshold fixed by the system user; and  notifying said user of the product is below the threshold fixed by them, the object then being assumed to contain the substance.  determining, for each line i, an information quantity Ii relative to line i and defined by the formula: ##EQU14## determining the sum of these information quantities; comparing said sum with a threshold fixed by the system user; and  notifying said user if said sum exceeds the threshold with which it is compared, the object then being assumed to contain the substance.  determining, for each line i, an information quantity Ii relative to said line i and defined by the formula: ##EQU15## in which K and a are stored functions of a background noise M'2i relative to the line i and N1i is the integral part of the difference Ni-M'2i, Ni representing the count during a time Dt, which corresponds to the line i and which is due to nuclear reactions induced by neutrons and also to the background noise M'2i relative to the line i and for the time Dt;  determining the sum of these information quantities;  comparing said sum with a threshold fixed by the system user; and  notifying said user if said sum exceeds the threshold with which it is compared, the object then being assumed to contain the substance. 2. The system according to claim 1, wherein each probability PFi is determined by the formula: ##EQU10## in which Ni represents the count during a time Dt, which corresponds to the line i and which is due to the nuclear reactions induced by the neutrons and also to a background noise M'2i relative to the line i and for the time Dt. 3. The system according to claim 2, wherein each background noise M'2i is determined by forming the sum of a physical background noise M2i, relative to the line i, and the upper limit Ci of counts relative to the said line i, during the time Dt, on objects liable to contain the substance, but known not to contain the substance. 4. The system according to claim 1, wherein said electronic processor is provided for: 5. The system according to claim 1, wherein the electronic processor is provided for: 6. The system according to claim 1, wherein the irradiation source comprises a fast neutron source and an enclosure for thermalizing these fast neutrons, in which is located the source and which serves to receive the object. 7. The system according to claim 1, wherein the irradiation incorporates a fast neutron source for irradiating the object. 8. The system according to claim 1, wherein said detector comprises a plurality of gamma radiation detectors and that the electronic processor comprises a plurality of detection chains respectively associated with the detectors. 9. The system according to claim 1, wherein said gamma radiation detector is a high resolution detection means. 10. The system according to claim 1, wherein the gamma radiation detector is protected from direct radiation from the irradiation source and wherein said irradiation source is a source of neutrons and said neutrons are collimated towards said object. 11. The system according to claim 1, wherein irradiation source comprises a pulsed neutron source for supplying neutron bursts and wherein said electronic processor cooperates with the detector in order to carry out measurements in time intervals during which it is certain that detection will only take place of one of the categories of gamma photons produced during the irradiation of the object by neutrons. 12. The system according to claim 1, wherein the irradiation source comprises a source of 14 MeV neutrons produced by fusion reactions. 13. A process for detecting a substance liable to be contained in an object, comprising: 14. The process according to claim 13, wherein each probability PFi is determined by the formula: ##EQU13## in which Ni represents the count during a time Dt, which corresponds to the line i and which is due to the nuclear reactions induced by the neutrons and also to a background noise M'2i relative to the line i and for the time Dt. 15. The process according to claim 14, wherein each background noise M'2i is determined by forming the sum of a physical background noise M2i, relative to the line i, and the upper limit Ci of counts relative to the said line i, during the time Dt, on objects liable to contain the substance, but known not to contain the substance. 16. The process according to claim 13, wherein the processing includes: 17. The process according to claim 13, wherein the processing includes: 18. The process according to claim 13, wherein the object is irradiated by a source including a fast neutron source, and further including an enclosure for thermalizing these fast neutrons, and which serves to receive the object. 19. The process according to claim 13, wherein the irradiation source incorporates a fast neutron source for irradiating the object. 20. A process according to claim 13, wherein the detector comprises a plurality of gamma radiation detectors and that the processing comprises a plurality of detection chains respectively associated with the detectors, and wherein the irradiation source comprises a pulsed neutron source for supplying neutron bursts and in that the electronic processor cooperates with the detector in order to carry out measurements in time intervals during which it is certain that detection will only take place for one of the categories of gamma photons produced during the irradiation of the object by neutrons.