Measurement of Mass Attenuation Coefficients for Some Potassium Compounds

Year 2019, Volume: 6 Issue: 2, 491 - 496, 26.12.2019

Burcu Akça

https://doi.org/10.35193/bseufbd.645352

Abstract

In this study, the mass attenuation coefficients of some
potassium compounds (KH₂PO₄, KNO₃, K₂S₂O₈,
KOH, K₂HPO₄, K₂SO₄, KCl, KIO_3,
and KI) have been
measured by using Energy Dispersive X-ray Fluorescence Spectrometer (EDXRFS)
and a high-resolution Si(Li) detector. Obtained experimental mass attenuation
coefficients have been compared with WinXCom and FFAST theoretical values. 

Keywords

Potassium , EDXRFS , WinXCom , , FFAST

Project Number

2018/006

References

• [1] İçelli O., Erzeneoğlu S., Boncukçuoğlu R. (2008). Determination of molecular, atomic, electronic cross-sections and effective atomic number of some boron compounds and TSW, Nuclear Instruments and Methods in Physics Research Section B: Beam Interaction with Materials and Atoms, 266(14), 3226-3230.
• [2] Raje D .V., Chaudhari L. M. (2010). Mass Attenuation Coefficients of Soil Samples in Maharashtra State (India) by Using Gamma Energy at 0.662 MeV, Bulgarian Journal of Physics, 37, 158–164.
• [3] Akça B., Erzeneoğlu S. (2014). The Mass Attenuation Coefficients, Electronic, Atomic, and Molecular Cross-Sections, Effective Atomic Numbers, and Electron Densities for Compounds of Some Biomedically Important Elements at 59.5 keV, Science and Technology of Nuclear Installations, 2014, 1-8.
• [4] Böke, A. (2014). Linear attenuation coefficients of tissues from 1 keV to 150 keV, Radiation Physics and Chemistry, 102, 49-59.
• [5] Böke, A. (2017). The photon interaction cross-sections of human cortical bone tissue, Chinese Journal of Physics, 55, 2165–2172.
• [6] Böke, A. Gencer, D. (2019). The photon interaction cross sections of blood, Chinese Journal of Physics, 58, 58-62.
• [7] Jackson D.F. Hawkes D.J. (1981). X-ray attenuation coefficients of elements and mixtures. Physics Reports, 70, 169–233.
• [8] Gerward, L., Guilbert, N., Jensen, K. B., Levring. (2004). WinXCom-a program for calculating X-ray attenuation coefficients, Radiation Physics and Chemistry, 71, 653-654.
• [9] Gerward, L., Guilbert, N., Jensen, K. B., Levring, H. (2001). X-ray absorption in matter. Reengineering XCOM. Radiation Physics and Chemistry, 60(1-2), 23-24.
• [10] Chantler, C. T., Olsen, K., Dragoset, R. A., Chang, J., Kishore, A. R., Kotochigova, S. A., Zucker, D.S.(2005).X-ray form factor, attenuation and scattering tables (Version 2.1). “http://physics.nist.gov/ffast”, National Institute of Standards and Technology (NIST).
• [11] İçelli, O., Erzeneoğlu, S., Boncukçuoğlu, R. (2003). Measurement of mass attenuation coefficients of some boron compounds and the trommel sieve waste in the energy range 15.746- 40.930 keV, Journal of Quantitative Spectroscopy and Radiative Transfer, 78, 203-210.
• [12] İçelli, O., Erzeneoğlu, S. (2004). The mass attenuation coefficients in some vanadium and nickel compounds, Journal of Quantitative Spectroscopy & Radioactive Transfer, 88, 519–524.