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W2019297321 abstract "After years of aggressive development, active matrix flat-panel imagers (AMFPIs) have recently become commercially available for radiotherapy imaging. In this paper we report on a comprehensive evaluation of the signal and noise performance of a large-area prototype AMFPI specifically developed for this application. The imager is based on an array of 512×512 pixels incorporating amorphous silicon photodiodes and thin-film transistors offering a 26×26 cm2 active area at a pixel pitch of 508 μm. This indirect detection array was coupled to various x-ray converters consisting of a commercial phosphor screen (Lanex Fast B, Lanex Regular, or Lanex Fine) and a 1 mm thick copper plate. Performance of the imager in terms of measured sensitivity, modulation transfer function (MTF), noise power spectra (NPS), and detective quantum efficiency (DQE) is reported at beam energies of 6 and 15 MV and at doses of 1 and 2 monitor units (MU). In addition, calculations of system performance (NPS, DQE) based on cascaded-system formalism were reported and compared to empirical results. In these calculations, the Swank factor and spatial energy distributions of secondary electrons within the converter were modeled by means of EGS4 Monte Carlo simulations. Measured MTFs of the system show a weak dependence on screen type (i.e., thickness), which is partially due to the spreading of secondary radiation. Measured DQE was found to be independent of dose for the Fast B screen, implying that the imager is input-quantum-limited at 1 MU, even at an extended source-to-detector distance of 200 cm. The maximum DQE obtained is around 1%—a limit imposed by the low detection efficiency of the converter. For thinner phosphor screens, the DQE is lower due to their lower detection efficiencies. Finally, for the Fast B screen, good agreement between calculated and measured DQE was observed." @default.
W2019297321 created "2016-06-24" @default.
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W2019297321 date "2001-12-01" @default.
W2019297321 modified "2023-09-25" @default.
W2019297321 title "Determination of the detective quantum efficiency of a prototype, megavoltage indirect detection, active matrix flat-panel imager" @default.
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W2019297321 cites W1977907857 @default.
W2019297321 cites W1979856353 @default.
W2019297321 cites W1983453996 @default.
W2019297321 cites W1987878999 @default.
W2019297321 cites W1991623592 @default.
W2019297321 cites W1997613077 @default.
W2019297321 cites W2003185117 @default.
W2019297321 cites W2007288047 @default.
W2019297321 cites W2018318965 @default.
W2019297321 cites W2023194998 @default.
W2019297321 cites W2026828469 @default.
W2019297321 cites W2028041989 @default.
W2019297321 cites W2032248200 @default.
W2019297321 cites W2034601426 @default.
W2019297321 cites W2036431351 @default.
W2019297321 cites W2036714268 @default.
W2019297321 cites W2051714322 @default.
W2019297321 cites W2052756756 @default.
W2019297321 cites W2060257030 @default.
W2019297321 cites W2068224140 @default.
W2019297321 cites W2090133463 @default.
W2019297321 cites W2092666703 @default.
W2019297321 cites W2101796119 @default.
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W2019297321 cites W2116943651 @default.
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W2019297321 cites W2171154544 @default.
W2019297321 cites W2324897795 @default.
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W2019297321 doi "https://doi.org/10.1118/1.1413516" @default.
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