Room Temperature Investigation of the Photostimulated Afterglow in KCl:Eu<sup>2+</sup> Crystals

Karamikhailova, M.; Mladenova, M.; Georgiev, M.

doi:10.1002/pssb.2221000210

Cited by 5 publications

(2 citation statements)

References 14 publications

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“…In the case of doped samples, no CL studies have been performed until now, at least to our best knowledge, but several investigations by using different techniques and irradiation sources have been done to know the origin and processes involved in the luminescence of irradiated samples [17,18]. The TL of room temperature (RT) b-rays and UV irradiated samples revealed the typical europium ion emission band and two shoulders located at both sides of the main emission.…”

Section: Introductionmentioning

confidence: 99%

Cathodoluminescence and Optically Active Regions of Intrinsic and Induced Defects in Eu2+-Doped KCl Crystals

Aceves

Pérez‐Salas

Pal

2002

phys. stat. sol. (b)

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PACS: 78.55.Fv; 78.60.Hk; 78.60.Kn Cathodoluminescence (CL) spectra and images of KCl : Eu 2+ have been measured between 80 and 300 K. The CL broad band observed in the spectrum has been assigned to the well known 4f 6 5d ! 4f 7 electronic transition of the Eu 2+ ions and to the "off center" p luminescence (STE) modified by the F center absorption band (F center self-absorption). By studying the CL emissions at different temperatures it is found that the europium ions interfere the dynamics of the defect formation in KCl. In addition, the CL images have revealed the optically active zones in both the doped and pure samples.

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Section: Introductionmentioning

confidence: 99%

Cathodoluminescence and Optically Active Regions of Intrinsic and Induced Defects in Eu2+-Doped KCl Crystals

Aceves

Pérez‐Salas

Pal

2002

phys. stat. sol. (b)

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“…A band model for PSL in KCl:Eu 2+ can now be generated (figure 2.6; after [56] and [64], cf. [65]). From the radiation therapy physicist user's perspective, this model is important for several reasons.…”

Section: Discussionmentioning

confidence: 99%

Dosimetric properties and radiation hardness of the storage phosphor europium doped potassium chloride for radiation therapy dosimetry

Driewer¹

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Multidimensional reusable dosimeters are extremely important for characterizing the complex dose distributions associated with modern radiation therapy techniques, such as intensity modulated radiation therapy (IMRT). In particular, reusability provides medical physicists a degree of confidence in dosimetric measurements through the acquisition of benchmarking datasets and through long-term, repeated use and performance monitoring. Yet a dosimeter that has all of the properties desired for radiation therapy use, such as reusability, high spatial resolution, and water-equivalence, is not currently available. The results of this dissertation demonstrate that the reusable storage phosphor europium doped potassium chloride, KCl:Eu2+, has the potential to significantly advance the state-of-the-art in radiation therapy dosimetry. Prototype chip and panel dosimeters were fabricated according to well-developed materials science processes. Dosimetric properties were studied by reading photostimulated luminescence (PSL) after irradiation with a laboratory optical system. Sensitivity was independent of dose rate and beam energy for commonly used therapy beams. Over-response to low-energy scattered photons was comparable to conventional radiographic film and reduced with lead foils. No significant changes in the PSL process were detected up to 5000 Gy dose history, indicating that the material could be reused up to 2500 times at 2 Gy per use, as in, for example, patient-specific IMRT quality assurance. Investigations of KCl:Eu2+ panel dosimeters show that sub-millimeter spatial resolution is achievable and that micron-scale dosimeters have a water-equivalent dose response with sufficient sensitivity over clinically relevant dose ranges. In conclusion, KCl:Eu2+ is demonstrated to have many desirable properties for radiation therapy dosimetry. This study provides a practical and theoretical knowledge base that advances and supports future KCl:Eu2+ dosimetry research.

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Conversion of Impurity—Vacancy Complexes under γ‐Irradiation and Subsequent F Band Bleaching in KCI:Eu²⁺

Mladenova

Malinovski

Georgiev

1982

Physica Status Solidi (b)

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The ESR signal from I-V complexes in KCI:Eu2+ is found to decrease markedly as a result of y-irradiation and to vary swing-wise on subsequent F band bleaching at RT. The main bleaching process is explained by the superposition of Z, centre formation and the revival of I-V complexes following photostimulated recombination of F centres with I-V-trapped interstitials. Evidence seems also to be obtained for Eu+ formation at the initial bleaching stage.Das EPR-Signal von I-V-Komplexen im KCI:Eu2+ verkleinert sich deutlich als Resultat der Y. Bestrahlung und andert sich bei nachfolgender Bleichung in der F-Bande bei ZT. Der Hauptprozel der Bleichung wird mit der Superposition der Bildung von Z-Zentren und der Wiederherstellung der I-V-Komplexe bei photostimulierter Rekombination der F-Zentren mit an I-V-eingefangenen Intentitials erkllirt. Es besteht die Moglichkeit der Bildung von Eu+ im Anfangsstadium der Bleichung.

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Room Temperature Investigation of the Photostimulated Afterglow in KCl:Eu²⁺ Crystals

Cited by 5 publications

References 14 publications

Cathodoluminescence and Optically Active Regions of Intrinsic and Induced Defects in Eu2+-Doped KCl Crystals

Cathodoluminescence and Optically Active Regions of Intrinsic and Induced Defects in Eu2+-Doped KCl Crystals

Dosimetric properties and radiation hardness of the storage phosphor europium doped potassium chloride for radiation therapy dosimetry

Conversion of Impurity—Vacancy Complexes under γ‐Irradiation and Subsequent F Band Bleaching in KCI:Eu²⁺

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Room Temperature Investigation of the Photostimulated Afterglow in KCl:Eu2+ Crystals

Cited by 5 publications

References 14 publications

Cathodoluminescence and Optically Active Regions of Intrinsic and Induced Defects in Eu2+-Doped KCl Crystals

Cathodoluminescence and Optically Active Regions of Intrinsic and Induced Defects in Eu2+-Doped KCl Crystals

Dosimetric properties and radiation hardness of the storage phosphor europium doped potassium chloride for radiation therapy dosimetry

Conversion of Impurity—Vacancy Complexes under γ‐Irradiation and Subsequent F Band Bleaching in KCI:Eu2+

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Room Temperature Investigation of the Photostimulated Afterglow in KCl:Eu²⁺ Crystals

Conversion of Impurity—Vacancy Complexes under γ‐Irradiation and Subsequent F Band Bleaching in KCI:Eu²⁺