Optical characterization of lithium fluoride thin-film imaging detectors for monochromatic hard X-rays

Abstract Lithium fluoride (LiF) crystals and thin films have been successfully investigated as X-ray imaging detectors based on optical reading of visible photoluminescence emitted by stable radiation-induced F 2 and F + 3 colour centres. In this work, the visible photoluminescence response of optic...

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Published inJournal of instrumentation Vol. 18; no. 4; p. C04012
Main Authors Vincenti, M.A., Montereali, R.M., Nichelatti, E., Nigro, V., Piccinini, M., Koenig, M., Mabey, P., Rigon, G., Dabrowski, H.J., Benkadoum, Y., Mercere, P., Da Silva, P., Pikuz, T., Ozaki, N., Makarov, S., Pikuz, S., Albertazzi, B.
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.04.2023
Subjects
Color centers
Fluorides
Lithium
Lithium fluoride
Materials for solid-state detectors
Optical microscopy
Optical properties
Photoluminescence
Physics
Radiation
Radiation detectors
Radiation dosage
Radiation effects
Sensors
Silicon substrates
Solid state detectors
Spatial resolution
Thickness
Thin films
X ray imagery
X-ray detectors
X-rays
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Summary:Abstract Lithium fluoride (LiF) crystals and thin films have been successfully investigated as X-ray imaging detectors based on optical reading of visible photoluminescence emitted by stable radiation-induced F 2 and F + 3 colour centres. In this work, the visible photoluminescence response of optically-transparent LiF film detectors of three different thicknesses, grown by thermal evaporation on Si(100) substrates and irradiated with monochromatic 7 keV X-rays at several doses in the range between 13 and 4.5 × 10 3 Gy, was carefully investigated by fluorescence optical microscopy. For all the film thicknesses, the photoluminescence response linearly depends on the irradiation dose in the investigated dose range. The lowest detected dose, delivered to the thinnest LiF film, only 0.5 μm thick, is estimated 13 Gy. Edge-enhancement imaging experiments, conducted by irradiating LiF film detectors at the same energy placing an Au mesh in front of them at a distance of 15 mm, allowed estimating a spatial resolution of (0.38 ± 0.05) μm, which is comparable to the microscope one. This very high spatial resolution in LiF film radiation detectors based on colour centres photoluminescence is combined with the availability of a wide field of view on large areas.
ISSN:1748-0221
1748-0221
DOI:10.1088/1748-0221/18/04/C04012