Basic performance and stability of a CdTe solid-state detector panel

Objective We have developed a prototype gamma camera system (R1-M) using a cadmium telluride (CdTe) detector panel and evaluated the basic performance and the spectral stability. Method The CdTe panel consists of 5-mm-thick crystals. The field of view is 134 × 268 mm comprising 18,432 pixels with a...

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Bibliographic Details
Published in:Annals of nuclear medicine 2010-05, Vol.24 (4), p.301-311
Main Authors: Tsuchiya, Katsutoshi, Takahashi, Isao, Kawaguchi, Tsuneaki, Yokoi, Kazuma, Morimoto, Yuuichi, Ishitsu, Takafumi, Suzuki, Atsurou, Ueno, Yuuichirou, Kobashi, Keiji
Format: Article
Language:English
Subjects:
Brain - diagnostic imaging
Cadmium Compounds
Cold Temperature
Hot Temperature
Imaging
Linear Models
Medicine
Medicine & Public Health
Nuclear Medicine
Original Article
Phantoms, Imaging
Radiology
Radionuclide Imaging - instrumentation
Radionuclide Imaging - methods
Tellurium
Time Factors
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Summary:Objective We have developed a prototype gamma camera system (R1-M) using a cadmium telluride (CdTe) detector panel and evaluated the basic performance and the spectral stability. Method The CdTe panel consists of 5-mm-thick crystals. The field of view is 134 × 268 mm comprising 18,432 pixels with a pixel pitch of 1.4 mm. Replaceable small CdTe modules are mounted on to the circuit board by dedicated zero insertion force connectors. To make the readout circuit compact, the matrix read out is processed by dedicated ASICs. The panel is equipped with a cold-air cooling system. The temperature and humidity in the panel were kept at 20°C and below 70% relative humidity. CdTe polarization was suppressed by the bias refresh technique to stabilize the detector. We also produced three dedicated square pixel-matched collimators: LEGP (20 mm-thick), LEHR (27 mm-thick), and LEUHR (35 mm-thick). We evaluated their basic performance (energy resolution, system resolution, and sensitivity) and the spectral stability in terms of short-term (several hours of continuous acquisition) and long-term (infrequent measurements over more than a year) activity. Results The intrinsic energy resolution (FWHM) acquired with Tc-99m (140.5 keV) was 6.6%. The spatial resolutions (FWHM at a distance of 100 mm) with LEGP, LEHR, and LEUHR collimators were 5.7, 4.9, and 4.2 mm, and the sensitivities were 71, 39, and 23 cps/MBq, respectively. The energy peak position and the intrinsic energy resolution after several hours of operation were nearly the same as the values a few minutes after the system was powered on; the variation of the peak position was
ISSN:0914-7187
1864-6433
DOI:10.1007/s12149-010-0354-1