Research Article
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Year 2022, , 22 - 27, 28.06.2022
https://doi.org/10.55195/jscai.1118684

Abstract

References

  • [1] Du Mond, Jesse W. M., 1929. "Compton modified line structure and its relation to the electron theory of solid bodies." Physic. Rev., 33 (5). Pp
  • [2] Uzunoglu, Z., Yilmaz, D., Şahin, Y., 2017 "Determination of the saturation thickness and albedo factors for mercury(II) oxide and lead(II) oxide." Instrum. SCi. Technol., 45(1): 111-121.
  • [3] Ljubenov, V., et al., 2010. "Total reflection coeffiCients of low-energy photons presented as universal functions." Nucl. Technol. Radiat. 25(2), 100-106
  • [4] Sabharwal, A. D., Singh., B., Sadhu, B., S. 2009. "Investigation of multiple backscattering and albedos of 1.12 MeV gamma in elements and alloys." Nucl. Instrum. Meth. B. 267, 151-156.
  • [5] Gilfrich, J., V., Brown, D., B., Burkhalter, P., G., 1975. "Integral reflection coeffiCient of X-ray Spectrometer Crystal." Appl. Spectrosc. 29(4), 322-326.
  • [6] Kadotani, H., Shimizu A., 1998. "Gamma ray albedo data generated by the invariant embedding method." J. Nucl. SCi. Technol. 35:8, 584-594.
  • [7] Kiran, K. U., et al., 2016. "Albedo factors of 123, 320, 511, 662 and 1115 keV gamma photons in carbon, aluminium, iron and copper." Eur. Phys. J. Plus., 131(4).
  • [8] Sabharwal, A. D., Sadhu, B., S., Singh., B., 2011. "Albedo factors of 279, 320, 511 and 662 keV backscattered gamma photons." Radiat. Eff. Defect. S., 166(6): 451-458.
  • [9] Gerward, L., et al., 2001. "X-ray absorption in matter. reengineering XCOM." Radiat. Phys. Chem., 60(1-2): 23-24.
  • [10] Weyrich, W., 1975. “The electron momentum distribution in solidpotassium fluoride, studied by Compton scattering.” Berichte der Bunsen-Gesellschaft für physikalische Chemie(früher Zeitschrift für Elektrochemie) 79(11), 1085-1095.
  • [11] Yilmaz, D., Uzunoğlu, Z., Demir, C., 2017. "Albedo factors of some elements in the atomic number range 26 <= Z <= 79 for 59.54 keV." Appl. Radiat. Isotopes 122: 68-71.

Investigation of Albedo Factor Parameters in Some Selected Sn Compounds

Year 2022, , 22 - 27, 28.06.2022
https://doi.org/10.55195/jscai.1118684

Abstract

In recent years, studies on the elements used in producing electronic device components and the interaction of their different compounds with radiation have been emphasized. In developing this situation, giving importance to space studies and different searches in energy production have been very effective. In the light of these developments, the interaction of tin, which is widely used in the production of electronic device components and different industrial areas, with radiation has been investigated. For this purpose, the variation of albedo factor values in some compounds of the tin element was investigated and presented. Am-241 radioactive sources were used as incident radiation in determining the albedo factor values mentioned in the study. The albedo factor values obtained by examining the Compton and coherent scattering peaks were used to determine the albedo factor values.

References

  • [1] Du Mond, Jesse W. M., 1929. "Compton modified line structure and its relation to the electron theory of solid bodies." Physic. Rev., 33 (5). Pp
  • [2] Uzunoglu, Z., Yilmaz, D., Şahin, Y., 2017 "Determination of the saturation thickness and albedo factors for mercury(II) oxide and lead(II) oxide." Instrum. SCi. Technol., 45(1): 111-121.
  • [3] Ljubenov, V., et al., 2010. "Total reflection coeffiCients of low-energy photons presented as universal functions." Nucl. Technol. Radiat. 25(2), 100-106
  • [4] Sabharwal, A. D., Singh., B., Sadhu, B., S. 2009. "Investigation of multiple backscattering and albedos of 1.12 MeV gamma in elements and alloys." Nucl. Instrum. Meth. B. 267, 151-156.
  • [5] Gilfrich, J., V., Brown, D., B., Burkhalter, P., G., 1975. "Integral reflection coeffiCient of X-ray Spectrometer Crystal." Appl. Spectrosc. 29(4), 322-326.
  • [6] Kadotani, H., Shimizu A., 1998. "Gamma ray albedo data generated by the invariant embedding method." J. Nucl. SCi. Technol. 35:8, 584-594.
  • [7] Kiran, K. U., et al., 2016. "Albedo factors of 123, 320, 511, 662 and 1115 keV gamma photons in carbon, aluminium, iron and copper." Eur. Phys. J. Plus., 131(4).
  • [8] Sabharwal, A. D., Sadhu, B., S., Singh., B., 2011. "Albedo factors of 279, 320, 511 and 662 keV backscattered gamma photons." Radiat. Eff. Defect. S., 166(6): 451-458.
  • [9] Gerward, L., et al., 2001. "X-ray absorption in matter. reengineering XCOM." Radiat. Phys. Chem., 60(1-2): 23-24.
  • [10] Weyrich, W., 1975. “The electron momentum distribution in solidpotassium fluoride, studied by Compton scattering.” Berichte der Bunsen-Gesellschaft für physikalische Chemie(früher Zeitschrift für Elektrochemie) 79(11), 1085-1095.
  • [11] Yilmaz, D., Uzunoğlu, Z., Demir, C., 2017. "Albedo factors of some elements in the atomic number range 26 <= Z <= 79 for 59.54 keV." Appl. Radiat. Isotopes 122: 68-71.
There are 11 citations in total.

Details

Primary Language English
Journal Section Research Articles
Authors

Ahmet Turşucu 0000-0002-4963-697X

Publication Date June 28, 2022
Submission Date May 19, 2022
Published in Issue Year 2022

Cite

APA Turşucu, A. (2022). Investigation of Albedo Factor Parameters in Some Selected Sn Compounds. Journal of Soft Computing and Artificial Intelligence, 3(1), 22-27. https://doi.org/10.55195/jscai.1118684
AMA Turşucu A. Investigation of Albedo Factor Parameters in Some Selected Sn Compounds. JSCAI. June 2022;3(1):22-27. doi:10.55195/jscai.1118684
Chicago Turşucu, Ahmet. “Investigation of Albedo Factor Parameters in Some Selected Sn Compounds”. Journal of Soft Computing and Artificial Intelligence 3, no. 1 (June 2022): 22-27. https://doi.org/10.55195/jscai.1118684.
EndNote Turşucu A (June 1, 2022) Investigation of Albedo Factor Parameters in Some Selected Sn Compounds. Journal of Soft Computing and Artificial Intelligence 3 1 22–27.
IEEE A. Turşucu, “Investigation of Albedo Factor Parameters in Some Selected Sn Compounds”, JSCAI, vol. 3, no. 1, pp. 22–27, 2022, doi: 10.55195/jscai.1118684.
ISNAD Turşucu, Ahmet. “Investigation of Albedo Factor Parameters in Some Selected Sn Compounds”. Journal of Soft Computing and Artificial Intelligence 3/1 (June 2022), 22-27. https://doi.org/10.55195/jscai.1118684.
JAMA Turşucu A. Investigation of Albedo Factor Parameters in Some Selected Sn Compounds. JSCAI. 2022;3:22–27.
MLA Turşucu, Ahmet. “Investigation of Albedo Factor Parameters in Some Selected Sn Compounds”. Journal of Soft Computing and Artificial Intelligence, vol. 3, no. 1, 2022, pp. 22-27, doi:10.55195/jscai.1118684.
Vancouver Turşucu A. Investigation of Albedo Factor Parameters in Some Selected Sn Compounds. JSCAI. 2022;3(1):22-7.