1 | Thermoluminescence kinetic analysis of basaltic rocks using a generalized model for exponential distribution of activation energies | Zahedifar, M., Rezaeian, P. and Harooni, S | Nucl. Inst. And Meth. B | 2007 |
2 | Synthesis of CaSO4: Mn nanosheets with high thermoluminescence sensitivity | Zahedifar, M., Mehrabi, M. and Harooni, S. | Appl. Radiat. Isotopes | 2011 |
3 | A new thermoluminescence mixed order model for continuous and uniform distribution of trapping centers | Zahedifar, M., and Harooni, S. | Iran. J. Phys. Res. | 2011 |
4 | Thermoluminescence kinetic analysis of quartz using an improved general order model for exponential distribution of activation energies | Zahedifar, M., Harooni, S. and Sadeghi, E | Nucl. Inst. And Meth. A | 2011 |
5 | Thermoluminescence characteristics of the novel CaF2:Dy nanoparticles prepared by using the hydrothermal method | Zahedifar, M., Sadeghi, E. and Harooni, S | Nucl. Inst. And Meth. B | 2012 |
6 | Thermoluminescece properties of BeO:Mg nanoparticles produced by sol-gel method | Zahedifar, M., Mehrabi, M., Modarres, M. and Harooni, S | JNS | 2012 |
7 | A new interactive thermoluminescence mixed-order glow curve deconvolution function | Zahedifar, M. and Harooni, S | Radiat. Eff. Def. Solids | 2013 |
8 | An improved mixed order model for describing thermoluminescence glow curves | Zahedifar, M. and Harooni, S | IJST | 2015 |
9 | Thermoluminescence dosimetry features of Dy and Cu doped SrF2 nanoparticles under gamma irradiation | Zahedifar, M., Sadeghi, E., Kashefi biroon , M., Harooni, S. and Almasifard, F | Appl. Radiat. Isot | 2015 |
10 | Determination of thermal quenching parameters of TLD-100 dosimeter | Harooni, S., Zahedifar, M., and Ahmadian Z. | Iran. J. Radiat. safety and Meas. | 2017 |
11 | Synthesis of MgSO4 nanoparticle doped with Cu by hydrothermal method and investigation of its thermoluminescence properties in gamma irradiation | Almasifard, F., Sadeghi, E., Zahedifar, M., and Harooni, S. | Iran. J. Radiat. safety and Meas. | 2017 |
12 | Thermoluminescence dosimetry properties and kinetic analysis of MgSO4:Dy microcrystalline prepared by solid state method | Zahedifar, M., Almasifard, F., Sadeghi, E., Harooni, S. and Kashefi biroon , M | Radiat. Meas | 2017 |
13 | Thermoluminescence and photoluminescece properties of NaCl:Mn, NaCL:Cu nano-particles produced using co-precipitation and sono-chemistry methods | Mehrabi, M., Zahedifar, M., Saeidi-Sogh, Z., Ramazani-Moghaddam-Arani, A., Sadeghi, E. and Harooni, S | Nucl. Inst. And Meth. A | 2017 |
14 | A new thermoluminescence general order glow curve fit function considering thermal quenching effect | Harooni, S., Zahedifar, M., Sadeghi, E., and Ahmadian, Z., | Radiat. Prot. Dosim. | 2019 |
15 | The 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 model | Harooni, S., Zahedifar, M., Ramazani-Moghaddam-Arani, A., Sadeghi, E., and Mehrabi, M. | J. Nucl. Sci. Technol. | 2019 |
16 | Recovery of thermoluminescence sensitivity in CaF2:Mn (TLD-400) dosimeter under heating process | Akbari, S., Harooni, S. and Zahedifar, M. | Iran. J. Radiat. safety and Meas. | 2019 |
17 | Determination of thermal quenching parameters in CaF2: Mn(TLD-400) thermoluminescent dosimeter | Taheri-Hasanabad, S., Harooni, S., Zahedifar, M. and Hajiloo, N. | J. Nucl. Sci. Technol. | 2020 |
18 | A new thermoluminescence mixed order model considering thermal quenching effect | Harooni, S., Zahedifar, M., Kermani, S. and Sadeghi, E. | Iran. J. Phys. Res. | 2021 |
19 | Synthesis, structural characteristics and thermoluminescence features of KCl: Mn and KCl: Ce phosphors | Talebi, M., Sadeghi, E., Zahedifar, M. and Harooni, S., | Nucl. Inst. And Meth. B | 2022 |
20 | Investigation of sensitivity loss and recovery method of CaF2:Mn (TLD-400) thermoluminescent dosimeter irradiated to high gamma dose | Harooni, S. and Akbari, S. | Iran. J. Radiat. safety and Meas., | 2022 |