Papers in Journals

#Paper TitleAuthorsJournalPublished At
 
1Investigation of sensitivity loss and recovery method of CaF2:Mn (TLD-400) thermoluminescent dosimeter irradiated to high gamma doseHarooni, S. and Akbari, S.Iran. J. Radiat. safety and Meas.,2022
2Synthesis, structural characteristics and thermoluminescence features of KCl: Mn and KCl: Ce phosphorsTalebi, M., Sadeghi, E., Zahedifar, M. and Harooni, S.,Nucl. Inst. And Meth. B2022
3مدل جدید مرتبه ی اول ترمولومینسانس به صورت تابعی از شدت و دمای قله با در نظر گرفتن اثر فروکشی دماییسمیه هارونی آرانی,سکینه طاهری حسن ابادمجله علوم و فنون هسته‌ایdate-error
4اثر فروکشی دمایی در پارامترهای سینتیک منحنی تابش ترمولومینسانس دزیمتر CaF2:Mn (TLD-400)راضیه فتحی باغبهادرانی,سمیه هارونی آرانیمجله علمی- پژوهشی سنجش و ایمنی پرتو1403/02/31
5Thermoluminescence properties of Cu doped α -Al2O3 crystals synthesized by a solid state methodمینا باقری خوراسگانی,احسان صادقی,مصطفی زاهدی فر,سمیه هارونی آرانیRadiation Physics and Chemistry2023-04-11
6A new thermoluminescence mixed order model considering thermal ‎quenching effectHarooni, S., Zahedifar, M., Kermani, S. and Sadeghi, E.Iran. J. Phys. Res.2021
7Determination of thermal quenching parameters in CaF2: Mn(TLD-400) thermoluminescent dosimeterTaheri-Hasanabad, S., Harooni, S., Zahedifar, M. and Hajiloo, N.J. Nucl. Sci. Technol.2020
8A new thermoluminescence general order glow curve fit function considering thermal quenching effectHarooni, S., Zahedifar, M., Sadeghi, E., and Ahmadian, Z.,Radiat. Prot. Dosim.2019
9The study on the kinetic parameters of deep traps of α-Al2O3:C (TLD-500) dosimeter by comparing experimental photo-transferred thermoluminescence response with the theoretical modelHarooni, S., Zahedifar, M., Ramazani-Moghaddam-Arani, A., Sadeghi, E., and Mehrabi, M.J. Nucl. Sci. Technol.2019
10Recovery of thermoluminescence sensitivity in CaF2:Mn (TLD-400) dosimeter under heating processAkbari, S., Harooni, S. and Zahedifar, M.Iran. J. Radiat. safety and Meas.2019
11Thermoluminescence and photoluminescece properties of NaCl:Mn, NaCL:Cu nano-particles produced using co-precipitation and sono-chemistry methodsMehrabi, M., Zahedifar, M., Saeidi-Sogh, Z., Ramazani-Moghaddam-Arani, A., Sadeghi, E. and Harooni, SNucl. Inst. And Meth. A2017
12Thermoluminescence dosimetry properties and kinetic analysis of MgSO4:Dy microcrystalline prepared by solid state methodZahedifar, M., Almasifard, F., Sadeghi, E., Harooni, S. and Kashefi biroon , MRadiat. Meas2017
13Determination of thermal quenching parameters of TLD-100 dosimeterHarooni, S., Zahedifar, M., and Ahmadian Z.Iran. J. Radiat. safety and Meas.2017
14Synthesis of MgSO4 nanoparticle doped with Cu by hydrothermal method and investigation of its thermoluminescence properties in gamma irradiationAlmasifard, F., Sadeghi, E., Zahedifar, M., and Harooni, S.Iran. J. Radiat. safety and Meas.2017
15An improved mixed order model for describing thermoluminescence glow curvesZahedifar, M. and Harooni, SIJST2015
16Thermoluminescence dosimetry features of Dy and Cu doped SrF2 nanoparticles under gamma irradiationZahedifar, M., Sadeghi, E., Kashefi biroon , M., Harooni, S. and Almasifard, FAppl. Radiat. Isot2015
17A new interactive thermoluminescence mixed-order glow curve deconvolution functionZahedifar, M. and Harooni, SRadiat. Eff. Def. Solids2013
18Thermoluminescence characteristics of the novel CaF2:Dy nanoparticles prepared by using the hydrothermal methodZahedifar, M., Sadeghi, E. and Harooni, SNucl. Inst. And Meth. B2012
19Thermoluminescece properties of BeO:Mg nanoparticles produced by sol-gel methodZahedifar, M., Mehrabi, M., Modarres, M. and Harooni, SJNS2012
20A new thermoluminescence mixed order model for continuous and uniform distribution of trapping centersZahedifar, M., and Harooni, S.Iran. J. Phys. Res.2011
Showing 1-20 of 23 items.