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An Experimental Study Related to Dose Scattering on the Routinely Used Minerals with Comparison of Grain Sizes and Disks Materials

Yıl 2016, Cilt: 13 Sayı: 2, - , 01.11.2016

Öz

The determination of the dose rate of a 90Sr/90Y radiation source prevalently used for
luminescence dating studies was investigated over quartz, feldspar and polymineral aliquots in different
grain sizes. These minerals are deposited over commonly used stainless-steel and aluminium discs.
Luminescence dating includes protocols incorporating artificial irradiation, which is a considerably
important point to understand the rate of the absorbed dose of the used samples. In this study, 90Sr/90Ybeta
sources, which are housed within Elsec and Riso commercial luminescence readers were used to compare
the dose absorption ratio on fine grain (<20µ) feldspar, polymineral pottery (<20µ) and coarse grain (90-
100µ) quartz. The absorbed dose rates were investigated using aluminium and stainless-steel discs with a
thickness of 1 mm and a diameter of 1cm. Also backscatter and bremsstrahlung effects were experimentally
investigated on stainless-steel and aluminium discs with the Ortec ZnS beta scintillation counter. As the
result of this study, by comparing luminescence results dose absorption ratio by Riso’s beta source
irradiation was seen lower than Elsec’s beta source irradiation. 

Kaynakça

  • [1] M. Jain, L. Bøtter-Jensen, A. K. Singhvi, Dose evaluation using multiple-aliquot quartz OSL: test of methods and a new protocol for improved accuracy and precision. Radiation Measurements, 37(1), (2003), 67-80.
  • [2] A. S. Murray, R. G. Roberts, Measurement of the equivalent dose in quartz using a regenerative-dose single-aliquot protocol. Radiation Measurement, 29(5), (1998), 503-515.
  • [3] 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(4), (2006), 369-391.
  • [4] D. Banerjee, Supralinearity and sensitivity changes in optically stimulated luminescence of annealedquartz. Radiation Measurement, 33, (2001), 47-57.
  • [5] A. S. Murray, R. G. Roberts, Determining the burial time of single grains of quartz using optically stimulated luminescence. Earth Planet Scientific Letters, 152, (2007), 163-180.
  • [6] A. S. Murray, A. G. Wintle, Luminescence dating of quartz using an improved singlealiquot regenerativedoseprotocol. Radiation Measurement, 32, (2000), 57-73.
  • [7] M. Doğan, N. Meriç, 650nm Laser stimulated dating from Side Antique Theatre, Turkey. Radiation Physics and Chemistry, 96, (2014), 60-68.
  • [8] M. A. Atlıhan, E. Şahiner, F. Soykal-Alanyalı, Dose estimation and dating of pottery from Turkey, Radiation Physics and Chemistry, 81(6), (2012), 594-598.
  • [9] E. Şahiner, N. Meriç, S. Uygun, Luminescence (IRSL) dating of Yeni Rabat church in Artvin, Turkey. Radiation Physics and Chemistry, 86, (2013), 68-73.
  • [10] K. j. Thomsen, L. Bøtter-Jensen, P. M. Denby, A. S. Murray, Luminescence response to irradiation using mini X-ray generators. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 252(2), (2006), 267-275.
  • [11] P. Bilski, W. Gieszczyk, B. Obryk, K. Hodyr, Comparison of commercial thermoluminescent readers for high-dose high-temperature measurements. In 1 st International Conference on Dosimetry and its Applications, (2013), (p. 56).
  • [12] L. Bøtter-Jensen, V. Mejdahl, A. S. Murray, New light on OSL. Quaternary Science Reviews, 18, (1999), 303-309.
  • [13] L. Bøtter-Jensen, G. A. T. Duller, A. S. Murray, D. Banerjee, Blue light emitting diodes for opticalstimulation of quartz in retrospective dosimetry and dating. Radiation Protection Dosimetry, 84, (1999), 335-340.
  • [14] A. S. Murray, J. I. Svendsen, J. Mangerud, V. I. Astakhov, Testing the accuracy of quartz OSL dating using a known-age Eemian site on the river Sula, northern Russia. Quaternary Geochronology, 2(1), (2007), 102-109.
  • [15] A. Oikonomou, K. Stamoulis, T. Papadopoulos, C. Papachristodoulou, K. Ioannides, Optically stimulated luminescence dating of samples from Tall al-Kafrayn, Jordan, (2011).
  • [16] T. Watanuki, A. S. Murray, S. Tsukamoto, Quartz and polymineral luminescence dating of Japanese loess over the last 0.6 Ma: comparison with an independent chronology. Earth and Planetary Science Letters, 240(3), (2005), 774-789.
  • [17] C. Goedicke, Calibration of a 90Sr/90Ysource for luminescence dating using OSL. Radiation Measurements, 42(9), (2007), 1427-1431.
Yıl 2016, Cilt: 13 Sayı: 2, - , 01.11.2016

Öz

Kaynakça

  • [1] M. Jain, L. Bøtter-Jensen, A. K. Singhvi, Dose evaluation using multiple-aliquot quartz OSL: test of methods and a new protocol for improved accuracy and precision. Radiation Measurements, 37(1), (2003), 67-80.
  • [2] A. S. Murray, R. G. Roberts, Measurement of the equivalent dose in quartz using a regenerative-dose single-aliquot protocol. Radiation Measurement, 29(5), (1998), 503-515.
  • [3] 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(4), (2006), 369-391.
  • [4] D. Banerjee, Supralinearity and sensitivity changes in optically stimulated luminescence of annealedquartz. Radiation Measurement, 33, (2001), 47-57.
  • [5] A. S. Murray, R. G. Roberts, Determining the burial time of single grains of quartz using optically stimulated luminescence. Earth Planet Scientific Letters, 152, (2007), 163-180.
  • [6] A. S. Murray, A. G. Wintle, Luminescence dating of quartz using an improved singlealiquot regenerativedoseprotocol. Radiation Measurement, 32, (2000), 57-73.
  • [7] M. Doğan, N. Meriç, 650nm Laser stimulated dating from Side Antique Theatre, Turkey. Radiation Physics and Chemistry, 96, (2014), 60-68.
  • [8] M. A. Atlıhan, E. Şahiner, F. Soykal-Alanyalı, Dose estimation and dating of pottery from Turkey, Radiation Physics and Chemistry, 81(6), (2012), 594-598.
  • [9] E. Şahiner, N. Meriç, S. Uygun, Luminescence (IRSL) dating of Yeni Rabat church in Artvin, Turkey. Radiation Physics and Chemistry, 86, (2013), 68-73.
  • [10] K. j. Thomsen, L. Bøtter-Jensen, P. M. Denby, A. S. Murray, Luminescence response to irradiation using mini X-ray generators. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 252(2), (2006), 267-275.
  • [11] P. Bilski, W. Gieszczyk, B. Obryk, K. Hodyr, Comparison of commercial thermoluminescent readers for high-dose high-temperature measurements. In 1 st International Conference on Dosimetry and its Applications, (2013), (p. 56).
  • [12] L. Bøtter-Jensen, V. Mejdahl, A. S. Murray, New light on OSL. Quaternary Science Reviews, 18, (1999), 303-309.
  • [13] L. Bøtter-Jensen, G. A. T. Duller, A. S. Murray, D. Banerjee, Blue light emitting diodes for opticalstimulation of quartz in retrospective dosimetry and dating. Radiation Protection Dosimetry, 84, (1999), 335-340.
  • [14] A. S. Murray, J. I. Svendsen, J. Mangerud, V. I. Astakhov, Testing the accuracy of quartz OSL dating using a known-age Eemian site on the river Sula, northern Russia. Quaternary Geochronology, 2(1), (2007), 102-109.
  • [15] A. Oikonomou, K. Stamoulis, T. Papadopoulos, C. Papachristodoulou, K. Ioannides, Optically stimulated luminescence dating of samples from Tall al-Kafrayn, Jordan, (2011).
  • [16] T. Watanuki, A. S. Murray, S. Tsukamoto, Quartz and polymineral luminescence dating of Japanese loess over the last 0.6 Ma: comparison with an independent chronology. Earth and Planetary Science Letters, 240(3), (2005), 774-789.
  • [17] C. Goedicke, Calibration of a 90Sr/90Ysource for luminescence dating using OSL. Radiation Measurements, 42(9), (2007), 1427-1431.
Toplam 17 adet kaynakça vardır.

Ayrıntılar

Konular Mühendislik
Bölüm Makaleler
Yazarlar

Mustafa Dogan

Eren Sahiner

Niyazi Meric

Yayımlanma Tarihi 1 Kasım 2016
Yayımlandığı Sayı Yıl 2016 Cilt: 13 Sayı: 2

Kaynak Göster

APA Dogan, M., Sahiner, E., & Meric, N. (2016). An Experimental Study Related to Dose Scattering on the Routinely Used Minerals with Comparison of Grain Sizes and Disks Materials. Cankaya University Journal of Science and Engineering, 13(2).
AMA Dogan M, Sahiner E, Meric N. An Experimental Study Related to Dose Scattering on the Routinely Used Minerals with Comparison of Grain Sizes and Disks Materials. CUJSE. Kasım 2016;13(2).
Chicago Dogan, Mustafa, Eren Sahiner, ve Niyazi Meric. “An Experimental Study Related to Dose Scattering on the Routinely Used Minerals With Comparison of Grain Sizes and Disks Materials”. Cankaya University Journal of Science and Engineering 13, sy. 2 (Kasım 2016).
EndNote Dogan M, Sahiner E, Meric N (01 Kasım 2016) An Experimental Study Related to Dose Scattering on the Routinely Used Minerals with Comparison of Grain Sizes and Disks Materials. Cankaya University Journal of Science and Engineering 13 2
IEEE M. Dogan, E. Sahiner, ve N. Meric, “An Experimental Study Related to Dose Scattering on the Routinely Used Minerals with Comparison of Grain Sizes and Disks Materials”, CUJSE, c. 13, sy. 2, 2016.
ISNAD Dogan, Mustafa vd. “An Experimental Study Related to Dose Scattering on the Routinely Used Minerals With Comparison of Grain Sizes and Disks Materials”. Cankaya University Journal of Science and Engineering 13/2 (Kasım 2016).
JAMA Dogan M, Sahiner E, Meric N. An Experimental Study Related to Dose Scattering on the Routinely Used Minerals with Comparison of Grain Sizes and Disks Materials. CUJSE. 2016;13.
MLA Dogan, Mustafa vd. “An Experimental Study Related to Dose Scattering on the Routinely Used Minerals With Comparison of Grain Sizes and Disks Materials”. Cankaya University Journal of Science and Engineering, c. 13, sy. 2, 2016.
Vancouver Dogan M, Sahiner E, Meric N. An Experimental Study Related to Dose Scattering on the Routinely Used Minerals with Comparison of Grain Sizes and Disks Materials. CUJSE. 2016;13(2).