Abstract: A tool comprising a tool body having an opening defined by interior walls extending into the tool body and a casing disposed within the opening. The tool further includes a scintillator material disposed within the casing and a first compressive member disposed within the tool body at a first axial location. The first axial location extends for a fraction of a total axial length of the casing and exerts a first radially compressive force at the first axial location.

Abstract: A scintillation detector may include a pixelated scintillation crystal mechanically and optically coupled to a position sensitive photodetector, such as a position sensitive photomultiplier tube (PSPMT). The pixelated scintillation crystal may be coupled to the position sensitive photodetector without using a window between the crystal and photodetector. According to one method of constructing the scintillation detector, a solid scintillation crystal may be coupled to the position sensitive photodetector and cut while coupled to the photodetector to form the pixelated scintillation crystal.

Abstract: A tool comprising a tool body having an opening defined by interior walls extending into the tool body and a casing disposed within the opening. The tool further includes a scintillator material disposed within the casing and a first compressive member disposed within the tool body at a first axial location. The first axial location extends for a fraction of a total axial length of the casing and exerts a first radially compressive force at the first axial location.

Abstract: A scintillation detector may include a pixelated scintillation crystal mechanically and optically coupled to a position sensitive photodetector, such as a position sensitive photomultiplier tube (PSPMT). The pixelated scintillation crystal may be coupled to the position sensitive photodetector without using a window between the crystal and photodetector. According to one method of constructing the scintillation detector, a solid scintillation crystal may be coupled to the position sensitive photodetector and cut while coupled to the photodetector to form the pixelated scintillation crystal.

Abstract: A scintillation detector may include a pixelated scintillation crystal mechanically and optically coupled to a position sensitive photodetector, such as a position sensitive photomultiplier tube (PSPMT). The pixelated scintillation crystal may be coupled to the position sensitive photodetector without using a window between the crystal and photodetector. According to one method of constructing the scintillation detector, a solid scintillation crystal may be coupled to the position sensitive photodetector and cut while coupled to the photodetector to form the pixelated scintillation crystal.

Abstract: A method and apparatus for maintaining a scintillator including a window attached using a frit. The frit may be applied as a slurry, a tape or a preform. The window may be attached using an eyelet. A method and apparatus for maintaining a scintillator including a window attached by a braze.

Abstract: A radiation detector, in particular a gamma camera, is constructed and operated in such a fashion that only a predetermined number of light sensors (such as PMT's) adjoining each other in a cluster are used to generate a signal with amplitude and event position information. The camera may also use an array of individual scintillation elements (crystals) in place of a single crystal, with certain advantages obtained thereby. According to another aspect of the invention, there is a reflector sheet that defines an array of apertures through which scintillation light can pass from the scintillation crystal to a plurality of light sensors optically coupled to an optical window in an array corresponding to the array of apertures in the reflector.

Abstract: A radiation detector, in particular a gamma camera, is constructed and operated in such a fashion that only a predetermined number of light sensors (such as PMT's) adjoining each other in a cluster are used to generate a signal with amplitude and event position information. The camera may also use an array of individual scintillation elements (crystals) in place of a single crystal, with certain advantages obtained thereby. According to another aspect of the invention, there is a reflector sheet that defines an array of apertures through which scintillation light can pass from the scintillation crystal to a plurality of light sensors optically coupled to an optical window in an array corresponding to the array of apertures in the reflector.