LAUSR

Abstract Nanocrystalline Yb 3+ doped Gd 2 O 3 phosphors were synthesized by solid state reaction method (SSRM), and effect of Yb 3+ concentrations (1 mol% to 7 mol%) on thermoluminescence properties were studied. The XRD technique shows the cubic structure of prepared phosphor for different concentrations of Yb 3+ . No phase change was found due to the dopant concentration. The crystal size was calculated by Scherer's formula, which is found in 20–60 nm range. The same was also confirmed from the field emission gun scanning electron microscopy (FEGSEM) image, which shows the formation of nanospheres having diameter 20–60 nm range. They are found to be quite uniform in shapes and sizes. Functional group analysis was studied by Fourier transform infrared spectroscopy (FTIR) techniques and the elemental analysis of prepared phosphor was studied by energy dispersive X-ray spectroscopic (EDX) analysis. The samples were irradiated with UV and gamma radiation for the doses varying from 5 to 30 min for UV and 0.5 kGy to 2 kGy for gamma respectively and their thermoluminescence (TL) characteristics have been studied. The effect of heating rate (3–7 °C s −1 ) and effect of Yb 3+ concentration in TL glow curve have been studied. The TL glow curve of nanophosphor shows a peak at around 130 °C for UV and at 247 °C for gamma irradiation respectively. The TL response of the sample irradiated with different gamma doses shows a linear behaviour from 0.5 kGy to 2 kGy and become sublinear behaviour in the range of 5–25 min UV exposure before it saturates with further increase in the dose. Simple glow curve structure, easy method of synthesis and the linear dose response make the nanocrystalline phosphor a good candidate for radiation dosimetry, especially for the estimation of high doses of gamma rays where the nanocrystalline phosphors generally saturated.