A method of scanner correction includes obtaining a first photopeak location for a first crystal in a detector. Image data is received from the first crystal. The first crystal generates the image data during a current imaging procedure. The image data is processed using the first photopeak location. A second photopeak location is determined for the first crystal from the image data. A difference between the first photopeak location and the second photopeak location of the first crystal is determined and the image data is reprocessed using the second photopeak location when the difference between the first photopeak location and the second photopeak location exceeds a predetermined threshold. An image is generated using the image data.

A portable detection apparatus includes a fluid inlet to acquire a stream of fluid, a fluid outlet and a fluid flowpath therebetween. A pump circulates the fluid through the fluid flowpath. A gamma spectrometer and a mercury analyzer engage the fluid flowpath to analyze and detect radiation emitted by the fluid. A filter trap is in the fluid flowpath downstream from the gamma spectrometer and the mercury analyzer. The filter trap includes a valve assembly and at least a first and second filter for collecting gaseous constituents from the fluid. Each filter is removably connected to the first valve assembly. The valve assembly has a first configuration, in which the first filter is fluidly connected to the fluid flowpath and the second filter is fluidly isolated from the fluid flowpath, and a second configuration, in which the second filter is fluidly connected to the fluid flowpath and the first filter is fluidly isolated from the fluid flowpath.

By acquiring the neutron ray wave height distribution of the neutron rays and the gamma ray wave height distribution of only the gamma rays included in the radiant rays, how much gamma rays are detected as noise can be ascertained in a case where a certain determination threshold value Q.sub.th is set. That is, a relationship between the determination threshold value Q.sub.th and detection accuracy can be ascertained. Since the distributions are acquired on the basis of two measurements in a case where a filter that cuts the neutron rays N is used and in a case where the filter is not used, the relationship between the determination threshold value Q.sub.th and the detection accuracy can be accurately ascertained. Therefore, a determination threshold value adjusting unit can adjust a suitable determination threshold value Q.sub.th in conformity with demanded detection accuracy on the basis of the distributions.

By acquiring the neutron ray wave height distribution of the neutron rays and the gamma ray wave height distribution of only the gamma rays included in the radiant rays, how much gamma rays are detected as noise can be ascertained in a case where a certain determination threshold value Q.sub.th is set. That is, a relationship between the determination threshold value Q.sub.th and detection accuracy can be ascertained. Since the distributions are acquired on the basis of two measurements in a case where a filter that cuts the neutron rays N is used and in a case where the filter is not used, the relationship between the determination threshold value Q.sub.th and the detection accuracy can be accurately ascertained. Therefore, a determination threshold value adjusting unit can adjust a suitable determination threshold value Q.sub.th in conformity with demanded detection accuracy on the basis of the distributions.

A water pumping and injecting multi-layered concentric sphere neutron spectrometer includes a neutron detector, a plurality of shells concentrically provided, and a water pumping and injecting device; wherein an innermost shell surrounds a surface of the neutron detector; gaps are formed between adjacent shells for containing liquid; the shells are made of an aluminum material; a valve is arranged on each of the shells except the innermost shell; the water pumping and injecting device is connected to the valve of each of the shells except the innermost shell, so as to input water into the gaps or output the water from the gaps. Compared with conventional neutron spectrometer, weight of the water pumping and injecting multi-layered concentric sphere device and the neutron spectrum detection system of the present invention is greatly reduced, which is conducive to transportation and utilization. Meanwhile, combination of neutron spectrum data measurement and measurement data are increased.

Systems and methods for neutron detection using tensioned metastable fluid detectors, using a single atom spectroscopy approach.

A portable detection apparatus includes a fluid inlet to acquire a stream of fluid, a fluid outlet and a fluid flowpath therebetween. A pump circulates the fluid through the fluid flowpath. A gamma spectrometer and a mercury analyzer engage the fluid flowpath to analyze and detect radiation emitted by the fluid. A filter trap is in the fluid flowpath downstream from the gamma spectrometer and the mercury analyzer. The filter trap includes a valve assembly and at least a first and second filter for collecting gaseous constituents from the fluid. Each filter is removably connected to the first valve assembly. The valve assembly has a first configuration, in which the first filter is fluidly connected to the fluid flowpath and the second filter is fluidly isolated from the fluid flowpath, and a second configuration, in which the second filter is fluidly connected to the fluid flowpath and the first filter is fluidly isolated from the fluid flowpath.

A hand-held portable radiation detection device, such as a radiation isotopic identification device (RIID), is integrated with a personal digital assistant device (PDA), such as a smart phone, to provide improved data processing capability and user interface. The hand-held portable radiation detection device includes a mounting unit for holding the PDA, in which at least one function of the PDA may be controlled by a plurality of buttons provided on an outer casing of the radiation detection device.

A hand-held portable radiation detection device, such as a radiation isotopic identification device (RIID), is integrated with a personal digital assistant device (PDA), such as a smart phone, to provide improved data processing capability and user interface. The hand-held portable radiation detection device includes a mounting unit for holding the PDA, in which at least one function of the PDA may be controlled by a plurality of buttons provided on an outer casing of the radiation detection device.

A method and system for acquiring spectral information from an energy sensitive nuclear detector is disclosed. The method includes detecting nuclear radiation at a detection device and generating an electronic input pulse indicative of energy deposited in the detection device. The method further includes integrating the electronic input pulse at an integrating device to produce an integrated output signal and digitally sampling the integrated output signal of the integrating device at intervals to produce a stream of digital samples. The method further includes resetting the integrator synchronously with a sampling clock when a limit condition is reached.