Kinetic modeling of optical absorption dose response in TLD-100

D. Weiss; Y. S. Horowitz; L. Oster

doi:10.1016/j.radmeas.2007.11.061

Kinetic modeling of optical absorption dose response in TLD-100

D. Weiss, Y. S. Horowitz, L. Oster

Department of Physics

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Optical absorption (OA) dose response is modeled in the framework of a single electron-trapping-center (TC), single hole-luminescent-center (LC) and single electron-competitive-center (CC). It is demonstrated that the "always-experimentally-observed" linear/exponentially saturating OA dose response arises if there is approximate equality (within an order of magnitude) of the dose filling constants and the total available trap density associated with the TC and CC, as is apparently the case in LiF:Mg,Ti (TLD-100) and other investigated TL materials. In principle, however, OA dose response supralinearity can occur if either of these are sufficiently dissimilar leading to early saturation of one of the electron trapping entities.

Original language	English
Pages (from-to)	190-193
Number of pages	4
Journal	Radiation Measurements
Volume	43
Issue number	2-6
DOIs	https://doi.org/10.1016/j.radmeas.2007.11.061
State	Published - 1 Feb 2008

Keywords

Kinetic modeling
OA dose response

ASJC Scopus subject areas

Radiation
Instrumentation

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10.1016/j.radmeas.2007.11.061

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abstract = "Optical absorption (OA) dose response is modeled in the framework of a single electron-trapping-center (TC), single hole-luminescent-center (LC) and single electron-competitive-center (CC). It is demonstrated that the {"}always-experimentally-observed{"} linear/exponentially saturating OA dose response arises if there is approximate equality (within an order of magnitude) of the dose filling constants and the total available trap density associated with the TC and CC, as is apparently the case in LiF:Mg,Ti (TLD-100) and other investigated TL materials. In principle, however, OA dose response supralinearity can occur if either of these are sufficiently dissimilar leading to early saturation of one of the electron trapping entities.",

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AU - Weiss, D.

AU - Horowitz, Y. S.

AU - Oster, L.

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N2 - Optical absorption (OA) dose response is modeled in the framework of a single electron-trapping-center (TC), single hole-luminescent-center (LC) and single electron-competitive-center (CC). It is demonstrated that the "always-experimentally-observed" linear/exponentially saturating OA dose response arises if there is approximate equality (within an order of magnitude) of the dose filling constants and the total available trap density associated with the TC and CC, as is apparently the case in LiF:Mg,Ti (TLD-100) and other investigated TL materials. In principle, however, OA dose response supralinearity can occur if either of these are sufficiently dissimilar leading to early saturation of one of the electron trapping entities.

AB - Optical absorption (OA) dose response is modeled in the framework of a single electron-trapping-center (TC), single hole-luminescent-center (LC) and single electron-competitive-center (CC). It is demonstrated that the "always-experimentally-observed" linear/exponentially saturating OA dose response arises if there is approximate equality (within an order of magnitude) of the dose filling constants and the total available trap density associated with the TC and CC, as is apparently the case in LiF:Mg,Ti (TLD-100) and other investigated TL materials. In principle, however, OA dose response supralinearity can occur if either of these are sufficiently dissimilar leading to early saturation of one of the electron trapping entities.

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JO - Radiation Measurements

JF - Radiation Measurements

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ER -

Kinetic modeling of optical absorption dose response in TLD-100

Abstract

Keywords

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