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Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria

Yıl 2018, Cilt 5, Sayı 2, 17 - 23, 02.03.2019
https://doi.org/20.500.12575/68385

Öz

This research was undertaken to investigate the sensitivity of Thermoluminescence (TL), Optically Stimulated Luminescence (OSL) and Infra-Red Stimulation Luminescence (IRSL) of twelve (12) quartz samples from different locations in the Southwestern part of Nigeria. This was done with a motive to survey the provenance suitability of each one of them for luminescence dating. All the luminescence measurements on the 12 quartz sample were carried out using a RISØ TL/OSL read (model TL/OSL-DA-15). Each of the samples displayed different range of luminescence responses to the same test dose. The sensitivity of the TL and OSL did not follow identical pattern for all the samples but that of LM-OSL and CW-OSL demonstrated nearly identical pattern. Feldspar inclusion was identified to be responsible for the deviation of the sensitivity of OSL from that of TL. Effect of feldspar inclusion seemed passive in TL but highly active in OSL; most especially fast component. The significant of feldspar inclusion in SAR protocols was stressed. Further studies on the samples at varying test doses may improve the understanding of the behavior of these samples.

Kaynakça

  • A. G. Wintle, “Luminescence dating laboratory procedures and protocols”, Radiation Measurements. 27(5/6): 769-817 (1997).
  • R. Chen, S. W. S Mckeever, “Theory of Thermoluminescence and Related Phenomena” World Scientific Publishing, Singapore. (1997)
  • D. J. Huntley, D. I. Godfrey-Smith, M. L. W. Thewalt, “Optical dating of sediments” Nature. 313: 105–107 (1985)
  • E. Bulur, “An alternative technique for optically stimulated luminescence (OSL) experiment” Radiation Measurements. 26: 701–709 (1996)
  • I. K. Bailiff, “Characteristics of time-resolved luminescence in quartz) Radiation Measurements. 32: 401–405 (2000)
  • M. L. Chithambo, R. B. Galloway, “A pulsed light-emitting-diode system for stimulation of luminescence” Measurement Science Technology 11: 418–424 (2000)
  • F. Preusser, M. L. Chithambo, T. Götte, M. Martini, K. Ramseyer, E. J. Sendezera, G. J. Susino, A. G. Wintle, “Quartz as a natural luminescence dosimeter” Earth-Science Reviews. 97: 184–214 (2009)
  • V. Pagonis, R. Chen, C. Kulp, G. Kitis. “An overview of recent developments in luminescence models with a focus on localized transitions”. Radiation Measurements 106 3-12 (2017)
  • A. I. Ivliev, L. L. Kashkarov, G. V. Kalinina, “Comparative Thermoluminescence characteristics of the different origin natural quartz” Electronic Scientific Information Journal. Herald of the Department of Earth Science RAS. 1(24): 1-2 (2006)
  • C. Furetta, “Handbook of Thermoluminescence” World Scientific publishing Co. Pte.Ltd., Singapore. (2003)
  • A. S. Murray, R. G. Roberts, “Measurement of the equivalent dose in quartz using a regenerative-dose single aliquot protocol” Radiation Measurements 29(5): 503 – 515 (1998).
  • W. A. Deer, R. A. Howie, W. S. Wise, J. Zussman, „Rock-Forming Minerals, V4b. Framework Silicates” Silica Minerals, Feldspathoids and the Zeolites. 2nd edition. Geological society of London, Xv pp +982. (2004)
  • L. Botter-Jensen, E. Bulur, G. A. T. Duller, A. S. Murray, “Advances in luminescence instrument systems”, Radiation Measurements. 32: 523-528 (2000).
  • ] E. O. Oniya, G. S. Polymeris, N. N. Jibiri, N. C. Tsirliganis, I. A. Babalola, G. Kitis, Contributions of pre-exposure dose and thermal activation in predose sensitizations of unfired and annealed quartz, Radiat. Phys. Chem. 110 105-113 (2015)
  • A. S. Murray, A. G. Wintle, “Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocol” Radiation Measurements. 32: 57–73 (2000)
  • A. G. Wintle, A. S. Murray, “A review of quartz optically stimulated luminescence characteristics and their relevance in single-aliquot regeneration dating protocols”. Radiation Measurements. 41: 369 – 391 (2006).
  • I. K. Bailiff, “The pre-dose technique” Radiation Measurements. 23 (2/3): 471-479 (1994)
  • D. K. Koul, K. S. V. Nambi, A. K. Singhvi, C. L. Bhat, P. K. Gupta, “Feasibility of estimating firing temperature using 110oC TL peak of quartz” Applied Radiation and Isotope. 47: 191-196 (1996)
  • A. Galli, M. Martini, C. Montanari, L. Panzeri, E. Sibila, “TL of fine-grain samples from quartz-rich archaeological ceramics. dosimetry using the 110 and 210oC TL peaks”, Radiation Measurements. 41: 1009-1014 (2006).
  • S. -H. Li, G. M. Yin, “Luminescence dating of young volcanic activity in China” Quaternary Science and Reviews. 20: 865-868 (2001)
  • E.O. Oniya, Luminescence sensitisations of natural quartz using pre-exposure dose and thermal activation techniques. Physics Department, University of Ibadan, Nigeria, Unpublished PhD Thesis (2014).
  • A. T. Duller, “Behavioural studies of stimulated luminescence from feldspar”, Radiation Measurements. 27 (5/6): 663-694. (1997).
  • N. A. Spooner,D. G. Questiaux, “Optical dating - Achenheim beyond the Eemian using green and infrared stimulation” Proceedings of Workshop on Long and Short Range Limits in Luminescence Dating. In. Occasional Publication 9, Research Laboratory for Archaeology and the History of Art, Oxford, (1989)
  • G. A. T. Duller, “Distinguishing quartz and feldspar in single grain luminescence measurements). Radiation Measurements 37: 161–165 (2003)

Yıl 2018, Cilt 5, Sayı 2, 17 - 23, 02.03.2019
https://doi.org/20.500.12575/68385

Öz

Kaynakça

  • A. G. Wintle, “Luminescence dating laboratory procedures and protocols”, Radiation Measurements. 27(5/6): 769-817 (1997).
  • R. Chen, S. W. S Mckeever, “Theory of Thermoluminescence and Related Phenomena” World Scientific Publishing, Singapore. (1997)
  • D. J. Huntley, D. I. Godfrey-Smith, M. L. W. Thewalt, “Optical dating of sediments” Nature. 313: 105–107 (1985)
  • E. Bulur, “An alternative technique for optically stimulated luminescence (OSL) experiment” Radiation Measurements. 26: 701–709 (1996)
  • I. K. Bailiff, “Characteristics of time-resolved luminescence in quartz) Radiation Measurements. 32: 401–405 (2000)
  • M. L. Chithambo, R. B. Galloway, “A pulsed light-emitting-diode system for stimulation of luminescence” Measurement Science Technology 11: 418–424 (2000)
  • F. Preusser, M. L. Chithambo, T. Götte, M. Martini, K. Ramseyer, E. J. Sendezera, G. J. Susino, A. G. Wintle, “Quartz as a natural luminescence dosimeter” Earth-Science Reviews. 97: 184–214 (2009)
  • V. Pagonis, R. Chen, C. Kulp, G. Kitis. “An overview of recent developments in luminescence models with a focus on localized transitions”. Radiation Measurements 106 3-12 (2017)
  • A. I. Ivliev, L. L. Kashkarov, G. V. Kalinina, “Comparative Thermoluminescence characteristics of the different origin natural quartz” Electronic Scientific Information Journal. Herald of the Department of Earth Science RAS. 1(24): 1-2 (2006)
  • C. Furetta, “Handbook of Thermoluminescence” World Scientific publishing Co. Pte.Ltd., Singapore. (2003)
  • A. S. Murray, R. G. Roberts, “Measurement of the equivalent dose in quartz using a regenerative-dose single aliquot protocol” Radiation Measurements 29(5): 503 – 515 (1998).
  • W. A. Deer, R. A. Howie, W. S. Wise, J. Zussman, „Rock-Forming Minerals, V4b. Framework Silicates” Silica Minerals, Feldspathoids and the Zeolites. 2nd edition. Geological society of London, Xv pp +982. (2004)
  • L. Botter-Jensen, E. Bulur, G. A. T. Duller, A. S. Murray, “Advances in luminescence instrument systems”, Radiation Measurements. 32: 523-528 (2000).
  • ] E. O. Oniya, G. S. Polymeris, N. N. Jibiri, N. C. Tsirliganis, I. A. Babalola, G. Kitis, Contributions of pre-exposure dose and thermal activation in predose sensitizations of unfired and annealed quartz, Radiat. Phys. Chem. 110 105-113 (2015)
  • A. S. Murray, A. G. Wintle, “Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocol” Radiation Measurements. 32: 57–73 (2000)
  • A. G. Wintle, A. S. Murray, “A review of quartz optically stimulated luminescence characteristics and their relevance in single-aliquot regeneration dating protocols”. Radiation Measurements. 41: 369 – 391 (2006).
  • I. K. Bailiff, “The pre-dose technique” Radiation Measurements. 23 (2/3): 471-479 (1994)
  • D. K. Koul, K. S. V. Nambi, A. K. Singhvi, C. L. Bhat, P. K. Gupta, “Feasibility of estimating firing temperature using 110oC TL peak of quartz” Applied Radiation and Isotope. 47: 191-196 (1996)
  • A. Galli, M. Martini, C. Montanari, L. Panzeri, E. Sibila, “TL of fine-grain samples from quartz-rich archaeological ceramics. dosimetry using the 110 and 210oC TL peaks”, Radiation Measurements. 41: 1009-1014 (2006).
  • S. -H. Li, G. M. Yin, “Luminescence dating of young volcanic activity in China” Quaternary Science and Reviews. 20: 865-868 (2001)
  • E.O. Oniya, Luminescence sensitisations of natural quartz using pre-exposure dose and thermal activation techniques. Physics Department, University of Ibadan, Nigeria, Unpublished PhD Thesis (2014).
  • A. T. Duller, “Behavioural studies of stimulated luminescence from feldspar”, Radiation Measurements. 27 (5/6): 663-694. (1997).
  • N. A. Spooner,D. G. Questiaux, “Optical dating - Achenheim beyond the Eemian using green and infrared stimulation” Proceedings of Workshop on Long and Short Range Limits in Luminescence Dating. In. Occasional Publication 9, Research Laboratory for Archaeology and the History of Art, Oxford, (1989)
  • G. A. T. Duller, “Distinguishing quartz and feldspar in single grain luminescence measurements). Radiation Measurements 37: 161–165 (2003)

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Articles
Yazarlar

E. O. ONİYA (Sorumlu Yazar)
Adekunle Ajasin University
Nigeria

Yayımlanma Tarihi 2 Mart 2019
Yayınlandığı Sayı Yıl 2018, Cilt 5, Sayı 2

Kaynak Göster

Bibtex @araştırma makalesi { ankujns423597, journal = {Journal of Nuclear Sciences}, issn = {2147-7736}, eissn = {2148-3981}, address = {}, publisher = {Ankara Üniversitesi}, year = {2019}, volume = {5}, number = {2}, pages = {17 - 23}, doi = {20.500.12575/68385}, title = {Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria}, key = {cite}, author = {Oniya, E. O.} }
APA Oniya, E. O. (2019). Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria . Journal of Nuclear Sciences , 5 (2) , 17-23 . DOI: 20.500.12575/68385
MLA Oniya, E. O. "Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria" . Journal of Nuclear Sciences 5 (2019 ): 17-23 <http://jns.ankara.edu.tr/tr/pub/issue/43636/423597>
Chicago Oniya, E. O. "Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria". Journal of Nuclear Sciences 5 (2019 ): 17-23
RIS TY - JOUR T1 - Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria AU - E. O. Oniya Y1 - 2019 PY - 2019 N1 - doi: 20.500.12575/68385 DO - 20.500.12575/68385 T2 - Journal of Nuclear Sciences JF - Journal JO - JOR SP - 17 EP - 23 VL - 5 IS - 2 SN - 2147-7736-2148-3981 M3 - doi: 20.500.12575/68385 UR - https://doi.org/20.500.12575/68385 Y2 - 2019 ER -
EndNote %0 Journal of Nuclear Sciences Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria %A E. O. Oniya %T Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria %D 2019 %J Journal of Nuclear Sciences %P 2147-7736-2148-3981 %V 5 %N 2 %R doi: 20.500.12575/68385 %U 20.500.12575/68385
ISNAD Oniya, E. O. . "Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria". Journal of Nuclear Sciences 5 / 2 (Mart 2019): 17-23 . https://doi.org/20.500.12575/68385
AMA Oniya E. O. Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria. Journal of Nuclear Sciences. 2019; 5(2): 17-23.
Vancouver Oniya E. O. Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria. Journal of Nuclear Sciences. 2019; 5(2): 17-23.
IEEE E. O. Oniya , "Variations in Luminescence Sensitivity of Various Quartz Samples from Southwestern Nigeria", Journal of Nuclear Sciences, c. 5, sayı. 2, ss. 17-23, Mar. 2019, doi:20.500.12575/68385