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Lβ/L Intensity Ratios of Antimony at Different Azimuthal and Polar Angles

Year 2019, Volume: 12 Issue: 3, 1504 - 1512, 31.12.2019
https://doi.org/10.18185/erzifbed.569495

Abstract

Lβ/La
X-ray intensity ratios of antimony (Sb) were investigated at different
azimuthal (-30° ≤ φ ≤+30°, at intervals of 10°) and polar scattering angles
(85°≤ θ ≤135° at intervals of 10°). In the purpose of exciting to Sb and
detecting the X-rays emitted from Sb, 241 Am point source and Si(Li)
detector have been used, respectively. The data was analysed by means of Origin
9 Software and it was determined that Lβ/L
a
change by polar scattering angle at a fixed azimuthal scattering angle and
by azimuthal scattering angle at a
fixed polar scattering angle.

References

  • Cesareo, R., Rizzutto, M. A., Brunetti, A., Rao, D. V. 2009. Metal location and thickness in a multilayered sheet by measuring K/Kβ, L/Lβ and L/Lγ X-ray ratios. Nuclear Instrument Methods Physics Research B, 267, 2890-2896.
  • Doğan, O., Şimşek, Ö., Turgut, Ü., Ertuğrul, M. 1998. L X-ray intensity ratios in heavy elements at 59.5 and 122 keV photons. Journal of Radioanalytical and Nuclear Chemistry, 232, 143-146.
  • Gerward, L., Guilbert, N., Jensen, K. B., Levring, H. 2001. X-ray absorption in matter, Reengineering XCOM. Radiation Physics and Chemistry, 60, 23-24.
  • Gerward, L., Guilbert, N., Jensen, K. B., Levring, H. 2004. WinXCom-a program for calculating X-ray attenuation coefficients. Radiation Physics and Chemistry, 71, 653–654.
  • Yalçın, P., Porikli, S,. Kurucu, Y., Şahin, Y. 2008. Measurement of relative L X-ray intensity ratio following radioactive decay and photoionization. Physics Letters B, 663, 186–190.
  • Krause, M. O. 1979. X-Ray Fluorescence Cross Sections for K and L X Rays of the Elements. Journal of Physics Chemistry Reference Data 8, 3307.
  • Scofıeld, J. H. 1974. Relativistic Hartree-Slater values for K and L X-ray emission rates. Atomic Data and Nuclear Data Tables 14, 121-137.
  • Söğüt, Ö., Büyükkasap, E., Ertuğrul, M., Küçükönder, A. 1997. Chemical Effect on L X-ray Intensity Ratios of Mercury, Lead, and Bismuth. Applied Spectroscopy Review, 32, 167-173.
  • Storm, E., Israel, I. 1970. Photon cross sectıons from 1 kev to 100 MEV for elements Z = 1" to Z = 100". Nuclear Data Tables A, 7, 565-681.
  • Wang, X., Xu, Z., Zhang, L. 2016. Study of the angular distribution of W-L X-ray intensity ratios in photoionization. Modern Physics Letters B, 30, 1650060.

Farklı Azimuthal ve Saçılma Açılarında Antimonun Lβ/L Şiddet Oranları

Year 2019, Volume: 12 Issue: 3, 1504 - 1512, 31.12.2019
https://doi.org/10.18185/erzifbed.569495

Abstract

Sb’
nin Lβ / L
a X-ışını şiddet oranları farklı azimuthal ve
saçılma açılarında ölçüldü. Sb’ yi uyarmak amacıyla ve Sb’den gelen X-ışınların
saymak amacıyla 241 Am nokta kaynak ve Si(Li) dedektör sırasıyla
kullanıldı. Datalar Origin 9 programı aracılığıyla analiz edildi ve Lβ /
L
a şiddet oranlarının farklı azimuthal açı ve
saçılma açısı değerleriyle değiştiği belirlendi

References

  • Cesareo, R., Rizzutto, M. A., Brunetti, A., Rao, D. V. 2009. Metal location and thickness in a multilayered sheet by measuring K/Kβ, L/Lβ and L/Lγ X-ray ratios. Nuclear Instrument Methods Physics Research B, 267, 2890-2896.
  • Doğan, O., Şimşek, Ö., Turgut, Ü., Ertuğrul, M. 1998. L X-ray intensity ratios in heavy elements at 59.5 and 122 keV photons. Journal of Radioanalytical and Nuclear Chemistry, 232, 143-146.
  • Gerward, L., Guilbert, N., Jensen, K. B., Levring, H. 2001. X-ray absorption in matter, Reengineering XCOM. Radiation Physics and Chemistry, 60, 23-24.
  • Gerward, L., Guilbert, N., Jensen, K. B., Levring, H. 2004. WinXCom-a program for calculating X-ray attenuation coefficients. Radiation Physics and Chemistry, 71, 653–654.
  • Yalçın, P., Porikli, S,. Kurucu, Y., Şahin, Y. 2008. Measurement of relative L X-ray intensity ratio following radioactive decay and photoionization. Physics Letters B, 663, 186–190.
  • Krause, M. O. 1979. X-Ray Fluorescence Cross Sections for K and L X Rays of the Elements. Journal of Physics Chemistry Reference Data 8, 3307.
  • Scofıeld, J. H. 1974. Relativistic Hartree-Slater values for K and L X-ray emission rates. Atomic Data and Nuclear Data Tables 14, 121-137.
  • Söğüt, Ö., Büyükkasap, E., Ertuğrul, M., Küçükönder, A. 1997. Chemical Effect on L X-ray Intensity Ratios of Mercury, Lead, and Bismuth. Applied Spectroscopy Review, 32, 167-173.
  • Storm, E., Israel, I. 1970. Photon cross sectıons from 1 kev to 100 MEV for elements Z = 1" to Z = 100". Nuclear Data Tables A, 7, 565-681.
  • Wang, X., Xu, Z., Zhang, L. 2016. Study of the angular distribution of W-L X-ray intensity ratios in photoionization. Modern Physics Letters B, 30, 1650060.
There are 10 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Makaleler
Authors

Mine Uğurlu 0000-0001-5556-9518

Publication Date December 31, 2019
Published in Issue Year 2019 Volume: 12 Issue: 3

Cite

APA Uğurlu, M. (2019). Lβ/L Intensity Ratios of Antimony at Different Azimuthal and Polar Angles. Erzincan University Journal of Science and Technology, 12(3), 1504-1512. https://doi.org/10.18185/erzifbed.569495