Kinetic analysis of the main glow peak of α-Al2O3:C exposed to high irradiation dose
Yıl 2015,
Cilt: 2 Sayı: 2, 23 - 30, 20.06.2015
A. Nyirenda
,
M. Chithambo
Öz
This paper reports kinetic analysis of the main thermoluminescent peak in α-Al2O3:C for irradiation doses as high as 120 Gy and at various heating rates going as low as 0.01 K/s. The dependence of the various methods of kinetic analysis on irradiation dose and/or heating rate has been assessed with respect to the main peak. The dose response of the peak to high beta irradiation has also been presented.
Kaynakça
- S.W.S. McKeever, “Thermoluminescence of Solidsˮ, Cambridge University Press (1985).
- N. A. Larsen, L. Botter-Jensen and S.W.S. McKeever, “Thermally Stimulated Conductivity and Thermoluminescence from α-Al2O3:C”,
- Radiation Protection Dosimetry 84 (1-4) 87-90 (1999).
- M.L. Chithambo, C. Seneza and F.O. Ogundare, “Kinetic Analysis of High Temperature Secondary Thermoluminescence Glow Peaks in α- Al2O3:C”, Radiation Measurements 66 21-30 (2014).
- F. D. Walker, L. E. Colyott, N. A. Larsen and S.W.S. McKeever, “The Wavelength Dependence of Light-Induced Fading of Thermoluminescence
- From α-Al2O3:C”, Radiation Measurements 26(5)711-718 (1996).
- E.G. Yukihara, V.H. Whitley, J.C. Polf, D.M. Klein, S.W.S. McKeever, A.E. Akselrod and M.S. Akselrod, “The Effects of Deep Trap Population on The Thermoluminescence of Al2O3:Cˮ, Radiation Measurements 37 (6) 627-638 (2003).
- V. Pagonis, G. Kitis and C. Furetta, “Numerical and Practical Exercises in Thermoluminescenceˮ, Springer (2006).
- -
- M.S. Akselrod, N.A. Larsen, V. Whitley and S.W.S McKeever, “Thermal Quenching of F-Center Luminescence in Al2O3:Cˮ, J. Appl. Phys. 84 (6) 3364-337 (1998).
- A.N. Nyirenda. “Mechanisms of Luminescence in α-Al2O3:C: Investigations Using Time-resolved Optical Stimulation and Thermoluminescence Techniquesˮ , Master Thesis, Rhodes University,
- Faculty of Science, Departmant of Physics and Electronics, Grahamstown, 98 s (2012).
- G Kitis, J.G. Papadopoulos, S. Charalambous and J.W.N. Tuyn, “The Influence of Heating Rate on The Response and Trapping Parameters of α-Al2O3:Cˮ, Radiat. Prot. Dos. 55 (1994), 183-190.
- M.L. Chithambo, “Concerning Secondary Peaks in α-Al2O3:Cˮ, South African Journal of Science, 100 524-527 (2004).
Yıl 2015,
Cilt: 2 Sayı: 2, 23 - 30, 20.06.2015
A. Nyirenda
,
M. Chithambo
Kaynakça
- S.W.S. McKeever, “Thermoluminescence of Solidsˮ, Cambridge University Press (1985).
- N. A. Larsen, L. Botter-Jensen and S.W.S. McKeever, “Thermally Stimulated Conductivity and Thermoluminescence from α-Al2O3:C”,
- Radiation Protection Dosimetry 84 (1-4) 87-90 (1999).
- M.L. Chithambo, C. Seneza and F.O. Ogundare, “Kinetic Analysis of High Temperature Secondary Thermoluminescence Glow Peaks in α- Al2O3:C”, Radiation Measurements 66 21-30 (2014).
- F. D. Walker, L. E. Colyott, N. A. Larsen and S.W.S. McKeever, “The Wavelength Dependence of Light-Induced Fading of Thermoluminescence
- From α-Al2O3:C”, Radiation Measurements 26(5)711-718 (1996).
- E.G. Yukihara, V.H. Whitley, J.C. Polf, D.M. Klein, S.W.S. McKeever, A.E. Akselrod and M.S. Akselrod, “The Effects of Deep Trap Population on The Thermoluminescence of Al2O3:Cˮ, Radiation Measurements 37 (6) 627-638 (2003).
- V. Pagonis, G. Kitis and C. Furetta, “Numerical and Practical Exercises in Thermoluminescenceˮ, Springer (2006).
- -
- M.S. Akselrod, N.A. Larsen, V. Whitley and S.W.S McKeever, “Thermal Quenching of F-Center Luminescence in Al2O3:Cˮ, J. Appl. Phys. 84 (6) 3364-337 (1998).
- A.N. Nyirenda. “Mechanisms of Luminescence in α-Al2O3:C: Investigations Using Time-resolved Optical Stimulation and Thermoluminescence Techniquesˮ , Master Thesis, Rhodes University,
- Faculty of Science, Departmant of Physics and Electronics, Grahamstown, 98 s (2012).
- G Kitis, J.G. Papadopoulos, S. Charalambous and J.W.N. Tuyn, “The Influence of Heating Rate on The Response and Trapping Parameters of α-Al2O3:Cˮ, Radiat. Prot. Dos. 55 (1994), 183-190.
- M.L. Chithambo, “Concerning Secondary Peaks in α-Al2O3:Cˮ, South African Journal of Science, 100 524-527 (2004).