Abstract: The invention provides a switchable photomultiplier switchable between a detecting state and a non-detecting state including a cathode upon which incident radiation is arranged to impinge. The photomultiplier also includes a series of dynodes arranged to amplify a current created at the cathode upon detection of photoradiation. The invention also provides a detection system arranged to detect radiation-emitting material in an object. The system includes a detector switchable between a detecting state in which the detector is arranged to detect radiation and a non-detecting state in which the detector is arranged to not detect radiation. The system further includes a controller arranged to control switching of the detector between the states such that the detector is switched to the non-detecting state whilst an external radiation source is irradiating the object.

Abstract: The present disclosure relates to a system and survey method for acquiring radiation spectral data in a radiation field and optionally determining effective dose rate based on the radiation spectral data. The method may include acquiring energy-dependent radiation spectral data at a location of interest in a radiation field using a detector, wherein the energy-dependent radiation spectral data may include counts versus energy. The method may further include acquiring radiation spectral data at least one other location wherein the at least one other location is positioned relative to the location of interest.

Abstract: Field balancing may be performed with an irradiation system including a plurality of adjustable radiant-energy emitters. The irradiation system powers the radiant-energy emitters from a power source and radiant energy is emitted from the radiant-energy emitters, where an amount of radiant energy emitted from each emitter is capable of being varied based on power received from the power source. A plurality of radiant-energy sensors detects an amount of radiant energy which includes radiant energy created directly by at least one of the radiant-energy emitters. The amount of radiant energy detected at least two of the radiant-energy sensors is compared, and at least one of the radiant-energy emitters is adjusted by varying the power received from the power source so that the amount of radiant energy detected at each of the radiant-energy sensors tends towards becoming approximately equal.

Abstract: A method includes purposefully electromagnetically shielding a portable x-ray detector.

Abstract: A system and method for detection of alpha particles generated by a test material in proximity to a light atomic weight element. The system includes a neutron detector that is configured to detect a rate of generation of neutrons produced by an (alpha, n) reaction between the test material and the light atomic weight element. There is also at least one gamma-ray detector configured to measure a rate of generation of 511 keV gamma rays produced by an annihilation reaction triggered by a positron emission from a daughter product of the light atomic weight element. A comparator is configured to compare the rate of generation of neutrons and the rate of generation of 511 keV gamma rays.

Abstract: A radiation detection system can include a radiation detector to detect radiation and an audio output device to produce audible sounds. The detected radiation can correspond to radiation information including energy information and energy intensity information. In an embodiment, the audio output device can produce an audio spectrum in a scanning mode, and in another embodiment, the audio output device can produce sounds at corresponding sound repetition rates depending on the energy intensity of the detected radiation. A method of using a radiation detection system can include placing an object near a radiation detector, generating a radiation signal corresponding to radiation emitting from the object, and analyzing the radiation signal to generate radiation information including energy information and energy intensity information.

Abstract: Disclosed is a nuclear radiation-warning detector that measures impedance of silver-silver halide on an interdigitated electrode to detect light or radiation comprised of alpha particles, beta particles, gamma rays, X rays, and/or neutrons. The detector is comprised of an interdigitated electrode covered by a layer of silver halide. After exposure to alpha particles, beta particles, X rays, gamma rays, neutron radiation, or light, the silver halide is reduced to silver in the presence of a reducing solution. The change from the high electrical resistance (impedance) of silver halide to the low resistance of silver provides the radiation warning that detected radiation levels exceed a predetermined radiation dose threshold.

Abstract: A movable device for measuring physical quantities of nuclear materials contained in a shielded cell, which device can be brought up against the shielded cell and can be retracted therefrom, the device configured to carry out the measurement in the position in which it is against the shielded cell. The device includes a carriage, a support member placed on the carriage, and a shielded container placed on the support member. The shielded container includes a transfer container configured to store the nuclear material to be measured, and an opening configured to be aligned with an opening in one wall of the shielded cell. The support member is made of graphite and includes a housing accommodating a neutron emission module, a casing covering the shielded container, the casing being made of graphite, and a neutron measurement mechanism fastened to the casing.

Abstract: An imaging method and apparatus, the method comprising collecting detector output data from a radiation detector positioned near a subject provided with a radio-active tracer, and resolving individual signals in the detector output data by (i) determining a signal form of signals present in the data, (ii) making parameter estimates of one or more parameters of the signals, wherein the one or more parameters comprise at least a signal temporal position, and (iii) determining the energy of each of the signals from at least the signal form and the parameter estimates. The acceptable subject to detector distance is reduced or increased, spatial resolution is improved, tracer dose or concentration is reduced, subject radiation exposure is reduced and/or scanning time is reduced.

Abstract: Locations of the origins of the photons are acquired from a scanned sample with reference to a scan frame. The location on the sample from which a photon was emitted is inferred from the location of the scan as commanded by a scan drive signal, a feedback signal related to the position of the scan device, or alternatively by the point in time during a scan at which the photon is detected. A position function, e.g., photon probability density, is associated with a photon position. Summing or other processing of photon probability density functions can require fewer photons to converge to an ideal density distribution associated with an image feature than are required using conventional pixel binning. Stored data can be mapped into pixels or voxels of a display or otherwise processed. Original data remains available in the digital storage for post-hoc analysis. Imprecision introduced by the display process need not adversely affect the precision of the collected data.

Abstract: An improved combination light source (103) comprises a combination of a solid-state white LED source (105) to illuminate a target with continuous, broadband illuminating light (114), and a second, additional light source, as an integrated system. While the white LED provides illumination, the second light source provides for medical, industrial, or laboratory analysis. A combination solid-state and second illuminator integrated with one or more detectors advantageously allows for a more compact, less heat producing, and more energy efficient manufacturable device, and further facilitates integration of the illuminator and detector into a device or system. Methods of use are also disclosed.

Abstract: Systems and methods for nuclear medicine (NM) imaging using different radiopharmaceuticals are provided. One method includes generating images of a region of interest (ROI) from radioactive emissions from a localization radiopharmaceutical to position the ROI in a field-of-view (FOV) of a gamma camera based on the generated images of the ROI. The method further includes performing an imaging scan of the ROI using an imaging radiopharmaceutical to acquire image data of the ROI, wherein the imaging radiopharmaceutical is different than the localization radiopharmaceutical.

Abstract: An angle-responsive sensor, comprising: a radiation detector adapted to detect ionizing radiation; at least one radiation absorbing element arranged to block radiation from reaching said detector in a manner dependent on a relative orientation of a radiation source, said detector and said element, said detector and said element defining an aim for said sensor; and circuitry coupled to said detector and which generates an output signal which varies as a function of said relative orientation, wherein said detector and said element are arranged to have a working volume of at least 10 cm in depth and having an angular width, such that said signal defines an accuracy of better than 3 mm within one standard deviation, over said working volume.

Abstract: An assembly (13) for monitoring ionising radiation comprises a detector substrate (2) for generating electronic charge responsive to incident ionising radiation, the detector substrate (2) having an array of ionising radiation sense volumes (12) formed in it. A circuit substrate (14) supporting an array of read-out circuits (16) corresponding to the array of sense volumes is mechanically and electrically coupled to the detector substrate (14). Each of the read-out circuits (16) is switchable between first and second charge integration modes for receiving charge from a corresponding sense volume. A charge integration circuit (30) is configured in the first charge integration mode to integrate charge corresponding to sensing of a single ionising radiation detection event in a corresponding sense volume and in the second charge integrating mode to integrate charge corresponding to sensing a plurality of ionising radiation detection events in the corresponding sense volume.

Abstract: A method of measuring radioactivity includes determining a fitted spectral distribution region for recorded counts data of at least a first activity peak determining characteristic data of the fitted spectral distribution region, and using the characteristic data to determine a spectral distribution region of a second activity peak.

Abstract: A gamma radiation detecting apparatus includes a gamma radiation collimator, a scintillation crystal, a charge coupled device, and an electronic device. The collimator receives and collimates gamma radiation. The scintillation crystal receives the gamma radiation from the gamma radiation collimator and converts the gamma radiation into visible light. The charge coupled device receives the visible light from the scintillation crystal and converts the visible light into an electrical charge. The electronic device converts the electrical charge into a digital image.

Abstract: A method and a circuit arrangement are disclosed for determining radiation intensity using counting detectors or detector elements, in which x-ray radiation photons, which are either absorbed or absorbed in part, generate electrical signals, the pulse number and pulse height of which is correlated to an incident radiation intensity, and the radiation intensity is at least determined by counting the pulses. According to at least one embodiment of the invention, the signal pulses incident on at least one detector or detector element are detected simultaneously by at least one continuously operating pulse height discriminator and by at least one pulse height discriminator operating in a clocked fashion, with the number of incident signal pulses being determined with the aid of these two items of detection information.

Abstract: This document discusses, among other things, an implantable apparatus comprising a plurality of solid state electronic circuits disposed at a plurality of different locations in the apparatus, a plurality of ionizing radiation exposure sensors disposed at the different locations and configured to generate an indication of a non-single-event-upset (non-SEU) effect to the solid state electronic circuit from an exposure to ionizing radiation, wherein the ionizing radiation exposure sensors respectively monitor at least two different types of operating parameters of respectively correspondingly located solid state circuits, and a controller circuit communicatively coupled to the ionizing radiation exposure sensors, wherein the controller circuit is configured to quantify the effect to the solid state electronic circuits using the different monitored operating parameters.

Abstract: A label assembly for the detection of high energy radiation, the assembly including at least one substrate layer having a first surface and a second surface opposite the first surface, at least one self-adhering layer disposed on said first surface of said substrate layer and at least one indicator for exposure to high energy radiation.

Abstract: Medical imaging processes are disclosed for facilitating the catheter-based delivery of stem cells or other therapy to affected organ tissue, including myocardial infarct and peri-infarct tissue. The disclosed processes include the integration of static image data showing the affected tissue with a live/moving image (e.g., a fluoroscopy image) to generate a hybrid view showing the real time location of an injection catheter relative to the affected tissue. The static image data may include or be derived from one or more noninvasive nuclear medicine imaging scans (e.g., PET or SPECT) generated prior to the catheterization procedure. The live image may also be augmented with visual markers showing target and/or actual injection locations. Also disclosed are methods for calculating amounts of therapy to deliver to the affected tissue.

Abstract: A system and method for locking the relative phase of multiple coherent optical signals, which compensates for optical phase changes induced by vibration or thermal changes in the environment.

Abstract: A ground-based system that provides quasi real-time measurement and collection of snow-water equivalent (SWE) data in remote settings is provided. The disclosed invention is significantly less expensive and easier to deploy than current methods and less susceptible to terrain and snow bridging effects. Embodiments of the invention include remote data recovery solutions. Compared to current infrastructure using existing SWE technology, the disclosed invention allows more SWE sites to be installed for similar cost and effort, in a greater variety of terrain; thus, enabling data collection at improved spatial resolutions. The invention integrates a novel computational architecture with new sensor technologies. The invention's computational architecture is based on wireless sensor networks, comprised of programmable, low-cost, low-powered nodes capable of sophisticated sensor control and remote data communication.

Abstract: A computerized system for locating a device including a sensor module and a processor. A radioactive source, associated with the device, produces a signal in the form of radioactive disintegrations. The sensor module includes a radiation detector capable of receiving a signal from the source attached to the device. The sensor module produces an output signal. The processor receives output signal(s) and translates output into information relating to a position of source.

Abstract: A tritium sensor and method are provided. The sensor involves the use of an electrode having a semiconductor coating that has properties selected to allow the passage of beta particles at the particular energy level for tritium through the semiconductor layer to a conductive electrode core and produce current. Current flow in the core can be measured by a current measuring device. The current flow can be correlated to the concentration of tritium in the gas surrounding the electrode to provide an indication of the amount of tritium present. The device can be used in a static system or a system in which the tritium containing gas flows. The apparatus provides real time readings of the tritium concentration in gas.

Abstract: A method of operating an electronic device including determining an initial charge level at a non-volatile charge storage structure of a radiation-sensitive device including a radiation-reactive material and determining if a first radiation event has occurred based upon the non-volatile charge storage device having a different charge level than the initial charge level. The method further includes identifying the first radiation event as associated with either a first type of radiation or a second type of radiation based upon the different charge level.

Abstract: An imaging detector includes a radiation sensitive region having first and second opposing sides. One of the first or second sides senses impinging radiation. The detector further includes electronics located on the other of the first or second sides of the radiation sensitive region. The electronics includes a thermal controller that regulates a temperature of the imaging detector.

Abstract: A method for determining parameters of a beam is disclosed. As a part of a disclosed method, a beam is received at an image detection array where charges are generated and collected, at a plurality of pixels. Values associated with at least one of a plurality of parameters of the beam are determined by integrating information supplied from each of the pixels. Feedback is generated that represents the values.

Abstract: Disclosed are a system and method counting photons. Photons are counted through a plurality of counters. Each of the counters generates a flag signal indicating the availability of each counter for an output of a photon detector. The generated flag signal is input into a control unit which controls a switching unit. The control unit allows a signal to be input into a counter, which is not in dead time, based on the received flag signal.

Abstract: A radiographic image capturing apparatus includes a radiation source device housing therein a radiation source for outputting a radiation, a cassette housing therein a radiation detector for detecting the radiation which is transmitted through a subject when the subject is irradiated with the radiation by the radiation source, and converting the detected radiation into a radiographic image, and a joining mechanism for selectively integrally joining the radiation source device and the cassette to each other and separating the radiation source device and the cassette from each other when the radiation source outputs the radiation.

Abstract: A detector system adapted for monitoring a radiation treatment system comprising a pulsed beam radiation source for treating a body with a given beam intensity and beam configuration, with pulse times and intervals between pulses less than 100 milliseconds, using at least one monitoring radiation source located inside or outside the body, the detector system comprising; a) a detector designed to detect radiation from the monitoring source, and subject to interference radiation from the beam source; and b) control circuitry that creates a data record of radiation received by the detector, to provide information about the body; wherein, when the detector detects radiation in real time during operation of the beam, the data record selectively excludes data for radiation received by the detector during the pulses, as opposed to data for radiation received by the detector between pulses.

Abstract: A diagnostic imaging device includes a signal processing circuit (22) processes signals from a detector array (16) which detects radiation from an imaging region (20). The hit signals are indicative of a corresponding detector (18) being hit by a radiation photon. The signal processing circuit (22) includes a plurality of input channels (321, 322, 323, 324), each input channel receiving hit signals from a corresponding detector element (18) such that each input channel (321, 322, 323, 324) corresponds to a location at which each hit signal is received. A plurality of integrators (42) integrate signals from the input channels (32) to determine an energy value associated with each radiation hit. A plurality of analog-to-digital converters (441, 442, 443, 444) convert the integrated energy value into a digital energy value. A plurality of time to digital converters (40) receive the hit signals and generate a digital time stamp.

Abstract: A carrier device for use in conjunction with a casket, the device having side handlebars, end handlebars and handlebar joints that are attached to form a rectangular shape; and a plurality of support structures that span between and attach to the handlebars, wherein the support structures are composed of a plurality of attachment bars and attachment tabs. The carrier device attaches to the bottom face of a casket by the attachment bars of the support structures.

Abstract: A data acquisition system includes a charge-sensitive amplifier (CSA) configured to receive a charge from an x-ray detector, the CSA includes a high-gain electronic voltage amplifier, an electrical energy storage device coupled with the amplifier, and an electrical resistor coupled with the amplifier. The data acquisition system includes a baseline sampling circuit configured to receive an output from the CSA and to sample a baseline signal from the CSA, at least one discriminator coupled to an output of the CSA and to an output of the baseline sampling circuit, the at least one discriminator configured to output a voltage if the output of the CSA exceeds a threshold, and a counter coupled to an output of the discriminator and configured to output a digital signal indicative of a photon count received at the x-ray detector and based on the output from the CSA and on the signal from the CSA.

Abstract: A system and method for monitoring ultraviolet radiation levels within the cure chamber of an ultraviolet curing station. An ultraviolet sensor is located within a cure chamber for sensing the strength of ultraviolet radiation reaching the sensor. The sensor is repositionable within the cure chamber for taking readings at a plurality of locations. Sensor readings at a plurality of predetermined positions within the cure chamber are communicated to a controller and stored in electronic memory, along with an identification of the sensor position when the reading was obtained. A report is generated setting forth correlated sensor readings and reading locations, and providing any appropriate warnings of existing or impending equipment failure impacting the level of ultraviolet radiation in the cure chamber (e.g., a bulb failure).

Abstract: Systems and methods for imaging and chemically identifying contraband are described. In one aspect, a method is provided for locating and identifying contraband on a subject. The method includes scanning the subject using a plurality of imaging sensors to collect radiometric data, collecting chemical data from chemical vapors and particles located on and/or near the subject using a trace-detection sensor, and fusing the collected radiometric data and the collected chemical data to generate at least one of a location of the contraband and a probability of a chemical composition of the contraband.

Abstract: A system and method for measurement of radioactivity concentration of a radiopharmaceutical are disclosed. The radiopharmaceutical may be a radioactive tracer solution including a tracer solution and a buffer solution. The system may include a vial that receives the tracer solution and the buffer solution; a scale; a radioactivity measuring device; and a controller that determines the radioactive concentration based on a measured radioactivity of the tracer solution and the buffer solution in the vial, and a weight of the tracer solution and the buffer solution in the vial. The method may include the steps of (1) transferring the tracer solution into a vial; (2) measuring a radioactivity of the tracer solution in the vial; (3) determining a weight necessary to achieve a desired radioactivity concentration; and (4) diluting the tracer solution in the vial to the determined weight with a buffer solution.

Abstract: A system, method, device, and process for making and using an electromagnetic-sensitive biosensor on a biosensor disk to identify and classify an analyte in a sample. The biosensor of the biosensor disk is exposed to a sample containing analytes and a desired analyte adheres to the biosensor. The biosensor disk is rotated during operation and an electromagnetic emitter directs an electromagnetic radiation beam at the biosensor disk. The returned electromagnetic radiation from the biosensor disk is received by a sensor that converts the returned electromagnetic radiation into a signal to indicate the presence of the desired analyte in the sample.

Abstract: Placement of a marker is performed efficiently, when performing a plurality of radiation imaging operations of a subject with different imaging angles. An operator inputs a region of interest within a subject on a bed, via an operating section. The region of interest and a peripheral region thereof are set as an irradiation range, and the marker is placed in the peripheral region. A radiation source control section causes a radiation source to emit radiation toward the subject within the set irradiation range. Radiation which passes through the subject is obtained by a radiation image detector as a radiation image.

Abstract: A radiometric for measuring a physical, measured variable of a fill substance located in a container and for outputting a measurement signal, which corresponds to a measured value of the physical, measured variable. The measuring device has available a single line-pair, via which energy supply of the total measuring device occurs, and via which transmission of the measurement signal occurs.

Abstract: A measuring device with a two-wire supply for radiometric filling level measuring or density measuring of a feed material with a processor which is designed to change from an active mode to a power-saving mode.

Abstract: Automatic devices that determine when pollutant deposits have accumulated in ductwork may be employed to notify maintenance personnel or automated cleaning equipment of the need for ducts to cleaned or replaced. Various detection devices may be employed to detect a property of accumulated grease and generate an indication of an accumulation. The detection device may present a surface to the fume stream inside a duct. The surface may be cooled to a temperature that represents a worst case temperature so that the accumulation due to condensation on the detector surface is at least as high as the coolest surface in the ductwork which is being monitored. Alternatively, the detection device may be located external to the duct. The detection device may interrogate the surface of the duct through contact or noncontact measurements to determine the thickness of an accumulated grease layer on the interior of the duct.

Abstract: A radiation imaging apparatus comprises: a radiation generator configured to irradiate an object with radiation; a radiation detector configured to detect radiation transmitted through the object; a detector configured to detect at least one of movement and rotation of the radiation generator and the radiation detector relative to the object; and a controller configured to change a size of an irradiated region of radiation applied to the object by the radiation generator based on a detection result.

Abstract: Methods and systems for an imaging system including a detector and a data acquisition system are provided. The data acquisition system includes a plurality of terminations, at least one of the terminations coupled to a signal lead of a respective detector element, the circuit board connector positioned proximate the detector to facilitate reducing an input capacitance of the respective detector element signal leads, and at least one connector slot configured to receive a single analog to digital converter board (A/D board), the connector slot further configured to receive two A/D boards in a back-to-back configuration with respect to each other.

Abstract: A radiographic image capturing system includes a plurality of image capturing apparatus for detecting, in a radiographic image capturing process, radiation that has passed through a subject and converting the detected radiation into radiographic image information, and a plurality of consoles for controlling the image capturing apparatus. The radiographic image capturing system also includes an image capture control commander for outputting an image capture control command signal to one of the consoles to enable the console to control the corresponding image capturing apparatus, and an image processing commander for outputting an image processing command signal to at least one of the consoles to enable the console to perform an image processing process to process the radiographic image information from the image capturing apparatus.

Abstract: The present invention provides a radiation imaging system, a power supplying apparatus, a charging apparatus, and a radiation imaging method that can prevent misidentification of an imaging subject to be imaged without detracting the portability of a radiation imaging apparatus. Namely, a memory that stores imaging subject information associated with the imaging subject is disposed in the power supplying apparatus which is configured to be mounted detachably to an electronic cassette.

Abstract: A procedure for registering damage to a material including a metallic matrix and ceramic particles embedded in it. A volume-increasing phase change of the particles is suppressed by the pressure exerted on them by the metallic matrix. However, if a crack appears in the material, there is a phase change of the particles to a volume-increased phase which is detected by determining a measurement representing the proportion of the volume-increased phase.

Abstract: The following relates to an integrated patient scanner system. The system includes a stationary gantry with first and second sides and a rotating gantry mounted to rotate in the stationary gantry around a patient receiving aperture, which is defined by the rotating gantry. The system further includes at least one detector mounted to the rotating gantry and extending from the first side around the patient receiving aperture. A patient table having a pedestal and a pallet is mounted to the stationary gantry. The pedestal mounts to and extends from the second side of the stationary gantry opposite to the at least one detector such that the pedestal and the stationary gantry define a common T-shaped supporting surface adapted to rest on the floor. The patient pallet mounts to the pedestal for movement to extend cantilevered through the patient aperture and out the first side past the at least one detector.

Abstract: An apparatus includes a scale factor determiner (236) that determines a count scale factor based on a measured count of a number detected photons for an energy threshold and an estimated actual count of the number of detected photons. The photons include poly-energetic photons detected by a radiation sensitive detector. The apparatus further includes a count sealer (136) that employs the count scale factor to scale measured counts of detected photons for different energy thresholds.

Abstract: An apparatus includes an integrator (120) that produces a pulse having a peak amplitude indicative of the energy of a detected photon. First discharging circuitry (136) discharges the integrator (120) at a first discharging speed, and second discharging circuitry (124) discharges the integrator (120) at a second discharging speed. The first discharging speed is less than the second discharging speed.

Abstract: The disclosure is directed at a method of digital imaging comprising sensing photons on at least one pixel within a pixel array of a radiation detector; counting the photons using photon counting to produce a digital signal representative of the sensed photons; monitoring a photon flux associated with the sensed photons; and using photon integration to produce a digital signal representative of the sensed photons when the photon flux is higher than a predetermined photon flux.