Electronic discrimination of the effective thickness of proportional counters. [Gamma cameras]
We developed and tested a new method of electronic discrimination of the effective thickness of proportional counters and applied this method in a proportional counter camera to adjust its effective aperture, i.e., the combination of counter efficiency and spatial resolution without changing the pinhole aperture, the collimator, or the distance between the subject and camera. The discriminator virtually divides the thickness of the electron drift volume of the camera into two regions and separates the photons detected in each region. Thus, two sets of data are acquired and displayed simultaneously during an exposure: one with good spatial resolution (less than 2 mm fwhm) using photons detected in the drift volume close to the entrance window, and one with high detection efficiency (greater than 50 percent for 60-keV photons) but poorer resolution (approximately 5 mm fwhm) using all detected photons. Simultaneous acquisition of two sets of data with different apertures reduces the exposure time in applications, such as nuclear medicine, where a sequence of images often is required to select the optimum aperture for different portions of radioisotope distribution images.
- Research Organization:
- Oak Ridge National Lab., TN
- OSTI ID:
- 7307381
- Journal Information:
- IEEE Trans. Nucl. Sci.; (United States), Vol. NS-24:1; Conference: 23. nuclear science symposium, New Orleans, LA, USA, 20 Oct 1976
- Country of Publication:
- United States
- Language:
- English
Similar Records
Line-scanning proportional counter camera
Source imaging using neutron pinhole cameras based on position-sensitive proportional counters
Related Subjects
GAMMA CAMERAS
PROPORTIONAL COUNTERS
APERTURES
EFFICIENCY
ELECTRIC FILTERS
SPATIAL RESOLUTION
CAMERAS
FILTERS
MEASURING INSTRUMENTS
OPENINGS
RADIATION DETECTORS
RESOLUTION
440101* - Radiation Instrumentation- General Detectors or Monitors & Radiometric Instruments