Patent Number: 060027347
Section: claims

1. A method of measuring the content, in a sample, of one or more assay elements, comprising the steps: (a) producing a beam of gamma rays of sufficient energy to excite nuclei of the assay element to an excited state;  (b) irradiating said sample by oscillating said sample within said beam thereby producing said excited state;  (c) detecting radiation resulting from the decay of said excited state; and  (d) analyzing said detected radiation to determine the content of assay element in the sample.  (a) said beam of gamma rays is produced by impinging a beam of electrons upon a target;  (b) said assay element is excited to an isomeric state; and  (c) said decay radiation is gamma radiation of a characteristic energy resulting from the decay of said excited nuclei to a ground state.  (a) producing a beam of gamma rays of sufficient energy to excite nuclei of the assay elements into selected isomeric states;  (b) sequentially irradiating sections of said sample with said beam;  (c) detecting gamma radiation from said sections resulting from the decay of said isomeric states to a ground state; and  (d) analyzing said detected gamma radiation to determine the content of assay elements in the sample.  (a) producing said beam of electrons with a linear accelerator; and  (b) controlling energy of said beam of electrons so that energy of said beam of gamma rays is below thresholds for production of neutrons by a photoneutron process or by a photofission process.  (a) material to thermalize and absorb neutrons; and  (b) material to absorb gamma radiation.  (a) producing a beam of gamma rays of sufficient energy to excite nuclei of the assay elements into selected isomeric states, wherein said beam is produced by impinging a beam of electrons upon a target interposed in said beam of electrons;  (b) irradiating said sample with said beam, wherein said sample is oscillated during said irradiation;  (c) after said irradiating step, moving said irradiated sample to a shielded environment;  (d) detecting within said shielded environment gamma radiation resulting from the decay of said isomeric states to a ground state; and  (e) analyzing said detected gamma radiation to determine the content of assay elements in the sample.  (a) producing said beam of electrons with a linear accelerator; and  (b) controlling energy of said beam of electrons so that energy of said beam of gamma rays is below thresholds for production of neutrons by a photoneutron process or by a photofission process.  (a) material to thermalize and absorb neutrons; and  (b) material to absorb gamma radiation. 2. The method of claim 1 wherein: 3. The method of claim 2 wherein said sample is conveyed after excitation from operative proximity to said beam of gamma rays to operative proximity for measuring said decay radiation. 4. A method of measuring the content in an ore sample of one or more assay elements characterized by metastable isomeric states, comprising the steps: 5. The method of claim 4 comprising the additional step of producing said beam of gamma rays by impinging a beam of electrons upon a target interposed in said beam of electrons. 6. The method of claim 5 comprising the additional step, carried out after said irradiating step and before said detecting step, of moving said irradiated sample to shielded environment wherein the detecting step is performed. 7. The method of claim 6 wherein said irradiating step is carried out for a period of time generally commensurate with the half life of one or more of the excited assay elements. 8. The method of claim 6 wherein said ore sample contains one or more of the assay elements selected from gold, silver, barium, iridium, hafnium, or mixtures thereof. 9. The method of claim 6 comprising the additional steps of: 10. The method of claim 9 wherein said energy of said beam of gamma rays is within the range of about 6 MeV to about 9 MeV. 11. The method of claim 6 including the additional step of shielding said sample from external gamma radiation and external neutron radiation while said sample is within said shielded environment. 12. The method of claim 6 comprising the additional step of shielding said target with an irradiation system shield comprising: 13. The method of claim 6 wherein said gamma radiation is detected with a detection system comprising a plurality of gamma ray detectors. 14. The method of claim 13 wherein said detection system comprises a plurality of gamma ray detectors positioned above said sample and a plurality of gamma ray detectors positioned below said sample. 15. The method of claim 14 wherein said gamma ray detectors comprise Ge detectors. 16. A method of measuring the content in an ore sample of one or more assay elements characterized by metastable isomeric states, comprising the steps: 17. The method of claim 16 comprising the additional step of irradiating segments of said sample. 18. The method of claim 17 comprising the additional steps of sequentially irradiating and detecting radiation from all of said sample. 19. The method of claim 17 wherein said irradiating step is carried out for a period of time generally commensurate with the half life of one or more of the excited assay elements. 20. The method of claim 17 wherein said ore sample contains one or more of the assay elements selected from gold, silver, barium, iridium, hafnium, or mixtures thereof. 21. The method of claim 17 comprising the additional steps of: 22. The method of claim 17 wherein said energy of said beam of gamma rays is within the range of about 6 MeV to about 9 MeV. 23. The method of claim 17 including the additional step of shielding said sample from external gamma radiation and external neutron radiation while said sample is within said shielded environment. 24. The method of claim 17 comprising the additional step of shielding said target with an irradiation system shield comprising: 25. The method of claim 17 wherein said gamma radiation is detected with a detection system comprising a plurality of gamma ray detectors. 26. The method of claim 25 wherein said detection system comprises a plurality of gamma ray detectors positioned above said sample and a plurality of gamma ray detectors positioned below said sample. 27. The method of claim 26 wherein said gamma ray detectors comprise Ge detectors. 28. The method of claim 17 comprising the additional steps of sequentially irradiating and detecting radiation from all of said irradiated segments of said sample.