2017
DOI: 10.1002/mp.12083
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Deriving depth‐dependent light escape efficiency and optical Swank factor from measured pulse height spectra of scintillators

Abstract: Purpose Pulse height spectroscopy has been used by investigators to deduce the imaging properties of scintillators. Pulse height spectra (PHS) are used to compute the Swank factor, which describes the variation in scintillator light output per x-ray interaction. The spread in PHS measured below the K-edge is related to the optical component of the Swank factor, i.e. variations in light escape efficiency from different depths of x-ray interaction in the scintillator, denoted ε̄(z). Optimizing scintillators for … Show more

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Cited by 15 publications
(16 citation statements)
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“…The escape fraction italicηescfalse(titalicCsI,zfalse) refers to the fraction of optical photons that reach the scintillator exit surface and are subsequently coupled to the photodiode with efficiency g4¯. An linear fit to escape fraction estimated by Howansky et al . for a scintillator with reflective backing was used to compute ηitalicesc:italicηescfalse(titalicCsI,zfalse)=0.185false(titalicCsIzfalse)+0.312…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…The escape fraction italicηescfalse(titalicCsI,zfalse) refers to the fraction of optical photons that reach the scintillator exit surface and are subsequently coupled to the photodiode with efficiency g4¯. An linear fit to escape fraction estimated by Howansky et al . for a scintillator with reflective backing was used to compute ηitalicesc:italicηescfalse(titalicCsI,zfalse)=0.185false(titalicCsIzfalse)+0.312…”
Section: Methodsmentioning
confidence: 99%
“…The escape fraction g esc ðt CsI ; zÞ refers to the fraction of optical photons that reach the scintillator exit surface and are subsequently coupled to the photodiode with efficiency g 4 . An linear fit to escape fraction estimated by Howansky et al 57 for a scintillator with reflective backing was used to compute g esc : TABLE I. Glossary of terms and symbols in the cascaded systems model. Model constants include fundamental physical quantities, geometry and typical operating parameters of the extremity CBCT system, and detector parameters that are independent of CsI:Tl thickness.…”
Section: A2 System Gainmentioning
confidence: 99%
“…Ginzburg and Dick have measured average gains of g¯italicPHS = 35 keV −1 and 28 keV −1 in the Regular and Fast Back screens, respectively. As we have shown in previous work, PHS gain measurements are weighted by the number of x rays interacting at each depth within a scintillator, therefore g¯italicPHS is dominated by g¯(0), that is, the gain at depths furthest from the light sensor. We have measured g¯(0) = 42 keV −1 in the Regular and g¯(0) = 26 keV −1 in the Fast Back, which agree reasonably well with their respective PHS measurements of g¯italicPHS = 35 keV −1 and 28 keV −1 .…”
Section: Discussionmentioning
confidence: 85%
“…As the most upstream component in the image detection chain, the properties of the scintillator used in an I‐FPD define the upper limit to its DQE. Consequently, it is critical to understand how scintillator design factors (e.g., material, thickness, optical backing) affect their imaging properties, so that the performance of I‐FPDs can be maximized at low imaging dose …”
Section: Introductionmentioning
confidence: 99%
“…The thickness of CsI has been investigated from 150 to 1000 μm. It has been shown that thicker columnar CsI can provide higher quantum efficiency with minimal penalty on the swank factor . Increasing the thickness of CsI will also reduce the risk of direct interactions in the a‐Se.…”
Section: Resultsmentioning
confidence: 99%