Silica fibre thermoluminescence (TL) dosimeters have demonstrated versatility in medical
and industrial, offering high spatial resolution, sensitivity, water resistance, and insensitivity …

Globally, the use of nuclear facilities and the potential risks associated with the dispersal of
ionizing radiation due to natural disasters or technical failures are on the rise. These risks …

In clinical settings, standard dosimeters might miss radiation mishaps. Retrospective
dosimeters could help to track personnel (such as patients and other staff who don't wear …

We discuss recent investigations by members of this group concerning the performance of P-
doped silica for radioluminescence-based dosimetry. Comparisons are made against that of …

With increasing use of ionizing radiation and associated nuclear materials, concern arises
regarding the possibility of harm from unplanned events, both to the surrounding …

The demand for highly sensitive radiation dosimeters is increasing. Recent research
underscores the effectiveness of MgSO 4: Dy 2 O 3–B 2 O 3 and MgSO 4: Dy 2 O 3–B 2 O 3 …

Present study concerns the key thermoluminescence (TL) properties of photonic crystal
fibres (PCFs), seeking development of alternatively structured TL materials that are able to …

In the modern clinical practice of diagnostic radiology there is a growing demand for
radiation dosimetry, it also being recognized that with increasing use of X-ray examinations …

Thermoluminescence dosimetry most typically concerns the sensing and quantification of
ionizing radiation exposures, with evaluation of absorbed dose arising from electron-hole …

In previous work we investigated the real-time radioluminescence (RL) yield of Ge-doped
silica fibres and Al 2 O 3 nanodot media, sensing electron-and x-ray energies and intensities …