1. High-resolution (20 cycles/mm) digital x-ray mammography using amorphous selenium directly coupled to CCD readout devices
- Author
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James G. Mainprize, Shi Yin, Tumay O. Tumer, Martin J. Yaffe, Vladimir Verpakhovski, John A. Rowlands, David M. Hunter, Gordon E. Mawdsley, Giovanni DeCresenzo, G. Belev, Safa Kasap, and Charles Smith
- Subjects
Physics ,Micrometre ,Optics ,business.industry ,Optical transfer function ,Detector ,X-ray detector ,Linearity ,Charge-coupled device ,Spatial frequency ,business ,Signal - Abstract
A simple x-ray detector that utilizes amorphous selenium (a-Se) directly deposited on a specially-designed CCD (charge coupled device) with a 25 micrometer del (detector element) pitch is described. This simple detector has been used to test the feasibility of creating digital mammography detectors. To enable the use of electron transport CCDs with a-Se, we have developed a-Se hole blocking layers to permit the transfer of electrons to the CCD while suppressing hole leakage current in the presence of the high negative bias (~1000 V) required to make the a-Se x-ray sensitive. We report measurements of the charge transfer efficiency (CTE), dark signal, x-ray sensitivity, x-ray signal linearity, and x-ray MTF (modulation transfer function) of the simple detector. As the thickness of the a-Se hole blocking layer was increased, the MTF decreased. For a thin (1 micrometer) blocking layer the MTF at a spatial frequency of 20 cycles/mm was 0.4.
- Published
- 2004
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