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Stability study of free radicals in 10 MeV electron beam irradiated quartz as an EPR dosimetry method

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this work the stability of free radicals induced by a 10 MeV electron beam in quartz samples was studied. The investigations have been done for different doses and different dose rates. For this reason, quartz samples in powder form were irradiated at different dose rates, i.e. 100, 260 and 630 kGy/min for absorbed dose range of similar to 5–80 kGy using the 10 MeV electron beam radiation. The dose values were validated using a polystyrene calorimeter system as a reference standard dosimetry system. The EPR optimum system parameters were defined and EPR responses at room temperature in air were measured and compared. The EPR signal, which is due to the free radicals induced by electron beam, was also investigated at different time intervals to check its stability. The main objective of this work was to study the feasibility of using quartz as a dosimeter. Thus, the variation of EPR signal intensities with the absorbed dose values were evaluated and plotted in a graph. The results show that the variation of dose rate, do not affect considerably the EPR response.
Czasopismo
Rocznik
Strony
251--254
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
autor
autor
  • Agricultural, Medical and Industrial Research School (AMIRS), Nuclear Science and Technology Research Institute, P. O. Box 31485-498, Karaj, Iran, Tel.: +98 261 442 4073, Fax: +98 261 446 4058, fziaie@nrcam.org
Bibliografia
  • 1. Bresler SE, Zhurkov SN, Kazbekov EN, Saminskii EM, Tomasherskii EE (1959) Paramagnetische Resonanz der beim Walzen entstehenden Radikale. Zh Tekh Fiz 29:358–364
  • 2. Egersdorfer S, Wieser A, Muller A (1996) Tooth enamel as a detector material for retrospective EPR dosimetry.Appl Radiat Isot 47:1299–1303
  • 3. Friebele EJ, Griscom DL, StapelBroek M, Weeks RA (1979) Fundamental defect centers in glass: the peroxy radical in irradiated, high-purity, fusedsilica. Phys Rev Lett 42:1346–1349
  • 4. Griscom DL, Mizuguchi M (1998) Determination of the visible range optical absorption spectrum of peroxy radicals in gamma-irradiated fused silica. J Non-Cryst Solids 239:66–77
  • 5. Kojima T, Ranjith HLA, Haruyama Y, Kashiwazaki S, Tanaka R (1993) Thin film alanine-polyethylene dosimeter. Appl Radiat Isot 44;1/2:41–45
  • 6. Lanjanian H, Ziaie F, Modarresi M, Nikzad M, Shahvar A, Durrani SA (2008) A technique to measure the absorbed dose in human tooth enamel using EPR method. Radiat Meas 43:648–650
  • 7. McLaughlin WL (1993) ESR dosimetry. Radiat Prot Dosim 47;1/4:255–262
  • 8. Ranjbar AH, Charles MW, Durrani SA, Randle K (1996) Electron spin resonance and thermoluminescence dosimetry of clear fused quartz: its possible use for personal, high dose and high temperature dosimetry. Radiat Prot Dosim 65:351–354
  • 9. Ranjbar AH, Durrani SA, Randle K (1999) Electron spin resonance and thermoluminescence in powder form of clear fused quartz: effects of grinding. Radiat Meas 30:73–81
  • 10. Ranjbar AH, Randle K (2008) Hyper pure quartz as a promising material for retrospective and radiation processing dosimetry using ESR technique. Appl Radiat Isot 66:1240–1244
  • 11. Regulla D (2000) From dating to biophysics – 20 years of progress in applied ESR spectroscopy. Appl Radiat Isot 52:1023–1030
  • 12. Regulla DF (2005) ESR spectroscopy: a future-oriented tool for dosimetry and dating. Appl Radiat Isot 62:117–127
  • 13. Skvortsov VG, Ivannikov AI, Stepanenko VF et al. (2000) Application of EPR retrospective dosimetry for large-scale accidental situation. Appl Radiat Isot 52:1275–1282
  • 14. Yordanov ND, Gancheva V (2002) Some new approaches in the field of solid state/EPR dosimetry. Adv ESR Appl 18:227–231
  • 15. Ziaie F, Stachowicz W, Strzelczak G, Al-Osaimi S (1999) Using bone powder for dosimetric system EPR response under the action of gamma irradiation. Nukleonika 44;4:603–608
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ7-0008-0030
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