Gamma-ray spectrometry
First Claim
1. A system, comprising:
- a gamma-ray spectrometer comprising a scintillation body for receiving gamma-rays and creating photons therefrom, and a photon detector having a sensitive area facing the scintillation body so as to receive and detect the photons, wherein the sensitive area of the photon detector presented to receive the photons is no more than 10% of the surface area of the scintillation body; and
a processor operable to process energy loss data obtained by the gamma-ray spectrometer by deconvolution using a response function for the gamma-ray spectrometer.
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Abstract
Different geometries of scintillation spectrometers are disclosed which provide improved resolution over prior art scintillation spectrometers. By ensuring that photons generated by scintillation events occurring in different locations within the scintillation material generate similar light profiles on the photo-detector, the output signal is made less sensitive to the initial interaction site. This can be achieved in a number of ways, such as: by limiting the exit window of the scintillation crystal to a smaller detector, by introducing an optical spacer (94) between the scintillation crystal and detector (99), and/or by making the crystal longer than necessary to stop the gamma rays. A principal advantage of these new geometries is that deconvolution of the raw-data is more effective, thus improving resolution.
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Citations
29 Claims
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1. A system, comprising:
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a gamma-ray spectrometer comprising a scintillation body for receiving gamma-rays and creating photons therefrom, and a photon detector having a sensitive area facing the scintillation body so as to receive and detect the photons, wherein the sensitive area of the photon detector presented to receive the photons is no more than 10% of the surface area of the scintillation body; and
a processor operable to process energy loss data obtained by the gamma-ray spectrometer by deconvolution using a response function for the gamma-ray spectrometer. - View Dependent Claims (2, 3, 4, 5, 10, 11, 12, 13, 27)
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6. A system, comprising:
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a gamma-ray spectrometer comprising a scintillation body for absorbing gamma-rays at locations within the scintillation body and creating photons therefrom, and a photon detector arranged to receive and detect the photons, wherein the photon detector is separated from the scintillation body by a light guiding spacer having a length between 0.3 and 10 times the width of the scintillation body so as to spread the photons so that their intensity profile across the photon detector is relatively invariant to the locations where the gamma rays are absorbed in the scintillation body; and
a processor operable to process energy loss data obtained by the gamma-ray spectrometer by deconvolution using a response function for the gamma-ray spectrometer. - View Dependent Claims (7, 8, 9, 28)
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14. A system, comprising:
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a gamma-ray spectrometer comprising a scintillation body for absorbing gamma-rays of at least a first energy at locations within the scintillation body and creating photons therefrom, and a photon detector arranged to receive and detect the photons, wherein the scintillation body is dimensioned to have a length of at least twice the attenuation length of gamma rays of the at least first energy in the scintillation body, so as to spread the photons so that their intensity profile across the photon detector is relatively invariant to the locations where the gamma rays are absorbed in the scintillation body, wherein the scintillation body is made of Csl and has a length of at least 0.56, 5.6 or 48.8 mm, the scintillation body is made of Nal and has a length of at least 0.86, 8.2 or 62.4 mm, the scintillation body is made of LSO and has a length of at least 1.2, 2,2 or 24.4 mm, or the scintillation body is made of YAP and has a length of at least 1.96, 14.0 or 44.8 mm; and
a processor operable to process energy loss data obtained by the gamma-ray spectrometer by deconvolution using a response function for the gamma-ray spectrometer. - View Dependent Claims (15, 16, 17, 18, 19, 29)
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20. A gamma-ray spectrometer comprising:
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a scintillation body for receiving gamma-rays and creating photons therefrom;
a photon detector having a sensitive area facing the scintillation body so as to receive and detect the photons, the sensitive area of the photon detector presented to receive the photons being no more than 10% of the surface area of the scintillation body; and
a temperature sensor for measuring temperature of the scintillation body.
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21. A method of gamma-ray spectroscopy, comprising:
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providing an object to be analyzed based on gamma rays;
collecting energy-loss data for the object with a gamma-ray spectrometer comprising a scintillation body for receiving gamma-rays and creating photons therefrom, and a photon detector having a sensitive area facing the scintillation body so as to receive and detect the photons, wherein the sensitive area of the photon detector presented to receive the photons is no more than 10% of the surface area of the scintillation body; and
processing the energy-loss data by deconvolution using a response function computed for the gamma-ray spectrometer. - View Dependent Claims (22)
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23. A method of gamma-ray spectroscopy, comprising:
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providing an object to be analyzed based on gamma rays;
collecting energy-loss data for the object with a gamma-ray spectrometer comprising a scintillation body for absorbing gamma-rays and creating photons therefrom, and a photon detector arranged to receive and detect the photons, wherein the photon detector is separated from the scintillation body by a light guiding spacer having a length between 0.3 and 10 times the width of the scintillation body so as to spread the photons so that they more uniformly illuminate the photon detector; and
processing the energy-loss data by deconvolution using a response function computed for the gamma-ray spectrometer. - View Dependent Claims (24)
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25. A method of gamma-ray spectroscopy, comprising:
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providing an object to be analyzed based on gamma rays of at least a first energy;
collecting energy-loss data for the object with a gamma-ray spectrometer comprising a scintillation body for absorbing the gamma-rays and creating photons therefrom, and a photon detector arranged to receive and detect the photons, wherein the scintillation body is dimensioned to have a length of at least twice the attenuation length of gamma rays of the at least first energy in the scintillation body, so as to spread the photons so that they more uniformly illuminate the photon detector; and
processing the energy-loss data by deconvolution using a response function computed for the gamma-ray spectrometer. - View Dependent Claims (26)
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Specification