Investigation of spatial resolution and efficiency using pinholes with small pinhole angle

Investigation of spatial resolution and efficiency using pinholes with small pinhole angle

Pinhole collimators are well suited for small animal SPECT, in which high spatial resolution is required over a small field of view (FOV). Typical pinhole collimators have pinhole angles of 90/spl deg/ or more. If their full FOV is used, the trajectories of imaged gamma rays can be more than 45/spl...

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Bibliographic Details
Published in:2002 IEEE Nuclear Science Symposium Conference Record Vol. 3; pp. 1760 - 1764 vol.3
Main Authors: Williams, M.B., Stolin, A.V., Kundu, B.K.
Format: Conference Proceeding
Language:English
Published: IEEE 2002
Subjects:
Animals
Apertures
Collimators
Electromagnetic wave absorption
Gamma ray detection
Gamma ray detectors
Gamma rays
High-resolution imaging
Optical imaging
Spatial resolution
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Summary:Pinhole collimators are well suited for small animal SPECT, in which high spatial resolution is required over a small field of view (FOV). Typical pinhole collimators have pinhole angles of 90/spl deg/ or more. If their full FOV is used, the trajectories of imaged gamma rays can be more than 45/spl deg/ away from the pinhole axis, and form angles of incidence at the surface of a planar detector greater than 45/spl deg/. The large incident angle produces a depth-of-interaction (DOI) blur thus reducing spatial resolution for these off-axis locations. This loss of resolution is masked by the accompanying improvement of the pinhole point spread function (PSF) due to the reduced effective aperture size. The magnitude of these effects as a function of the angle between the gamma ray trajectory and the pinhole axis depends on detector absorption efficiency, and on the physical parameters of the pinhole collimator, including pinhole type, composition, and size pinhole angle. In addition, the reduced effective pinhole results in reduced efficiency for off-axis source points. In this paper we investigate the angular dependence of these effects for pinhole collimators with different compositions and pinhole angles. Results are compared to theoretical expressions that take into account gamma ray penetration of the pinhole material.
ISBN:9780780376366
0780376366
DOI:10.1109/NSSMIC.2002.1239663