X-ray induced luminescence of high-purity, amorphous silicon dioxide

Abstract: A comprehensive study of x-ray stimulated luminescence has been carried out on four types of high-purity, amorphous silica (a-SiO2). Both high OH and low OH as well as oxygen-excess and oxygen-deficient materials were studied. The room-temperature, visible x-radio luminescence (XRL) was measured continuously as a function of x-ray dose from zero to 400 Mrad volume average dose. In addition to the XRL measurements, electron paramagnetic resonance (EPR) was used to determine the concentrations of the two key rad… Show more

“…Our results are in general agreement with recent studies on radio-luminescence of pure silica [17,18]. In the present work, three bands were clearly identified at low T, at 1.9, 2.4, and 2.7 eV, respectively.…”

Luminescence properties of rare-earth ions in SiO2 glasses prepared by the sol–gel method

“…Our results are in general agreement with recent studies on radio-luminescence of pure silica [17,18]. In the present work, three bands were clearly identified at low T, at 1.9, 2.4, and 2.7 eV, respectively.…”

Luminescence properties of rare-earth ions in SiO2 glasses prepared by the sol–gel method

“…1) with the same spectral parameters and temperature dependence of intensity. The 2.3 eV emission is indeed a known silica feature, probably related to self-trapped exciton [13]. Also the structures at 80 K and 200 K in TL glow curves are common to glassy and glass-ceramics samples and were already observed in other silica-based materials [12].…”

“…First, spectral components in RL and TL spectra of SnO 2 :SiO 2 glass-ceramics and Sn-doped silica are the same (Fig. 1), and correspond to those encountered in other silica-based materials [12] and in pure silica too [13], and this holds for TL glow curves as well (Fig. 4).…”

Low-temperature radio- and thermo-stimulated luminescence of SnO2-doped silica

“…It shows narrow and intense RL emission band centered at 314.4 nm (3.94 eV), with a FWHM of about 4.1 nm (0.051 eV). No other RL emission, related to defect centers [36], at lower energy could be detected. Moreover, no continuous background signal due to the stem effects has been observed [5].…”

Gd³⁺-doped sol-gel silica glass for remote ionizing radiation dosimetry