Dose-response and trap kinetics of Dy3+-doped LiCa4O(BO3)3 for thermoluminescence dosimetry

dc.authorid0000-0003-3488-5284
dc.authorid0000-0002-6298-4223
dc.authorid0000-0002-3321-0341
dc.authorid0000-0002-0231-6813
dc.contributor.authorÇoban, Mustafa Burak
dc.contributor.authorBulcar, Kenan
dc.contributor.authorÇin, Elif Aymila
dc.contributor.authorHakami, Jabir
dc.contributor.authorAltowyan, Abeer S.
dc.contributor.authorKaynar, Ümit Hüseyin
dc.contributor.authorTopaksu, Mustafa
dc.date.accessioned2026-06-24T07:39:15Z
dc.date.issued2026
dc.departmentFakülteler, Fen-Edebiyat Fakültesi, Fizik Bölümü
dc.descriptionÇoban, Mustafa Burak (Balikesir Author)
dc.description.abstractLiCa4O(BO3)3:Dy3+ (0.5 wt%) phosphors were investigated as potential thermoluminescent (TL) dosimeters under β irradiation. Following preheating at 155 ◦C for 10 s and readout at 2 ◦C s − 1 , the material exhibits a wellresolved main dosimetric peak at ~185 ◦C whose maximum temperature remains essentially independent of dose between 1.4 and 150.1 Gy. The integrated TL signal and peak intensity follow a power-law dose dependence (I ∝Db ) with exponents b ≈ 1.07–1.16, indicating an extended quasi-linear response with slight supralinearity at higher doses. Variable heating rate analyses using the Hoogenstraaten and Booth–Bohun–Parfianovitch formalisms yield consistent activation energies of E ≈ 0.86–1.6 eV and frequency factors on the order of 1013 s − 1, supporting the presence of a relatively deep and thermally stable dosimetric trap. Tm–Tstop and E–Tstop analyses reveal a mixed trap hierarchy with stepwise quasi-stable energy intervals, indicative of thermally grouped shallow, intermediate and deep trapping regions. Computerized glow-curve deconvolution resolves the composite glow curve into ten general-order components (≈0.85–1.65 eV) prior to preheating, which reduce to five deeper components (≈1.44–1.67 eV) after thermal cleaning, consistent with the suppression of shallow traps and the dominance of stable dosimetric levels. Post-irradiation storage exhibits a two-stage temporal evolution of the ~185 ◦C peak, characterized by early intensity build-up followed by long-term fading while Tm remains constant, behaviour consistent with charge redistribution within a mixed-trap framework. Overall, the results indicate that LiCa4O(BO3)3:Dy3+ combines a thermally robust main peak, extended quasi-linear dose response, and low effective atomic number, supporting its potential for tissue-equivalent TL dosimetry
dc.description.sponsorshipPrincess Nourah bint Abdulrahman University PNURSP2026R16
dc.identifier.doi10.1016/j.mssp.2026.110679
dc.identifier.endpage14
dc.identifier.issn1369-8001
dc.identifier.issn1873-4081
dc.identifier.startpage1
dc.identifier.urihttps://doi.org/10.1016/j.mssp.2026.110679
dc.identifier.urihttps://hdl.handle.net/20.500.12462/24140
dc.identifier.volume210
dc.identifier.wosWOS:001750058300001
dc.identifier.wosqualityQ2
dc.indekslendigikaynakWeb of Science
dc.indekslendigikaynakScopus
dc.language.isoen
dc.publisherElsevier Science Ltd
dc.relation.ispartofMaterials Science In Semiconductor Processing
dc.relation.publicationcategoryMakale - Uluslararası Hakemli Dergi - Kurum Öğretim Elemanı
dc.rightsinfo:eu-repo/semantics/closedAccess
dc.subjectLica4o(BO3)3:Dy3+
dc.subjectThermoluminescence
dc.subjectMixed Trap Hierarchy
dc.subjectTwo-Stage Fading
dc.subjectRadiation Dosimeter
dc.titleDose-response and trap kinetics of Dy3+-doped LiCa4O(BO3)3 for thermoluminescence dosimetry
dc.typeArticle

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