Dosimetric properties of potassium magnesium borate glass doped with copper

The present article deals with potassium magnesium borate glass activated with copper that was prepared by a melting quenching technique to study the feasibility of this glass as a radiation dosimeter. The prepared glasses were characterized through X-ray diffraction and FTIR spectroscopy and some of the glasses optical and physical parameters have been interpreted. The thermoluminescence properties of the prepared samples were studied, and the results revealed that the potassium magnesium borate doped with 0.07 wt% with copper has the highest thermoluminescent response. The glow curve of potassium magnesium borate doped with 0.07 wt% of copper has seven overlapping peaks with maximum temperatures of 383.09, 400.71, 413.26, 426.59, 445.98, 476.57 and 534.04 K, and the TL-response is linear from 0.11 to 165 Gy. From the present study, the potassium magnesium borate doped with 0.07 mol% from copper may be applicable for measuring the radiation dose.

Automated summary

The present article investigates the potential of copper-activated potassium magnesium borate glass as a radiation dosimeter. The glass samples were characterized and the results showed that the potassium magnesium borate doped with 0.07 wt% copper exhibited the highest thermoluminescent response.