@Article{CL.2023.201.43,
AUTHOR = {M. S. Alqahtani, F. Alqahtani, A. M. Almarhaby, K. I. Hussain, Y. Khalid, H. Almohiy, I. S. Yaha, El S. Yousef},
TITLE = {Structural and performance radiation protection the phosphate glasses contain: Te, K, Al, Nb-doped with rare earth},
JOURNAL = {Chalcogenide Letters},
VOLUME = {20},
YEAR = {2023},
NUMBER = {1},
PAGES = {43--54},
URL = {http://www.techscience.com/CL/v20n1/65344},
ISSN = {1584-8663},
ABSTRACT = {Because of the increased use of ionizing radiation, radiation management and security 
procedures are now regarded a standard part of many therapeutic and specialist fields. The 
focus of this work is on the radiation security features of Novel Oxide Glass 
(PZBKTANEr). The unique glass assembly is 40P2O5-30ZnO- 20BaF2-3.8K2TeO3-
1.2Al2O3-5Nb2O5-3Er2O3 in mol percent (test code PZBKTANEr). For the suggested 
oxide glass, several radiation shielding characteristics have been investigated for a specific 
energy range of ionizing radiation. The linear and mass attenuation coefficients, mean free 
path, half-value layer, total nuclear and electronic cross-sections, and fast neutron 
expulsion cross-section are among the radiation shielding properties. Furthermore, the 
unique fabricated glass (PZBKTANEr) was compared to commonly used radiation 
protection compositions, such as RS-253 G18, RS-360, RS-520, Chromite, Ferrite, 
Magnetite, and Barite glass, as well as RS-253 G18, RS-360, RS-520, Chromite, Ferrite, 
Magnetite, and Barite glass. Also, we studied the structure of fabrication by using Raman 
spectra. The findings suggest that the new oxide glass might be used in a broad variety of 
ionizing radiation applications for protection in both therapeutic and industrial 
applications.},
DOI = {10.15251/CL.2023.201.43}
}