Karali T.Can N.Townsend P.D.Rowlands A.P.Hanchar J.M.2024-07-222024-07-2220000003004Xhttp://akademikarsiv.cbu.edu.tr:4000/handle/123456789/20535The radioluminescence and thermoluminescence spectra of synthetic zircon crystals doped with individual trivalent rare earth element (REE) ions (Pr, Sm, Eu, Gd, Dy, Ho Er, and Yb) and P are reported in the temperature range 25 to 673 K. Although there is some intrinsic UV/blue emission from the host lattice, the dominant signals are from the rare-earth sites, with signals characteristic of the REE3+ states. The shapes of the glow curves are different for each dopant, and there are distinct differences between glow peak temperatures for different rare-earth lines of the same element. Within the overall set of signals there are indications of linear trends in which some glow peak temperatures vary as a function of the ionic size of the rare earth ions. The temperature shifts of the peaks are considerable, up to 200°, and much larger than those cited in other rare-earth-doped crystals of LaF3 and Bi4Ge3O12. The data clearly suggest that the rare-earth ions are active both in the trapping and luminescence steps, and hence the TL occurs within localized defect complexes that include REE3+ ions.EnglishBismuth compoundsCrystalsGermanium compoundsLanthanum compoundsMetal ionsPhosphorusRare earth elementsRare earthsSilicate mineralsThermoluminescenceZirconGlow-peak temperatureLocalized defectsRadio-luminescenceRare-earth doped crystalsSynthetic zircon crystalsTemperature rangeTemperature shiftThermoluminescence spectrumluminescencephosphorusrare earth elementzirconFluorine compoundsArticle10.2138/am-2000-5-603