Crystallization Mechanism and Optical Properties of Antimony-Germanate-Silicate Glass-Ceramic Doped with Europium Ions

Abstract: Glass-ceramic is semi-novel material with many applications, but it is still problematic in obtaining fibers. This paper aims to develop a new glass-ceramic material that is a compromise between crystallization, thermal stability, and optical properties required for optical fiber technology. This compromise is made possible by an alternative method with a controlled crystallization process and a suitable choice of the chemical composition of the core material. In this way, the annealing process is eliminated, … Show more

“…The performances of antimony-germanate-silicate glass-ceramics containing Eu 3+ were elaborated by Żmojda et al [16]. In particular, the mechanisms of crystallization of EuPO 4 nanocrystals located in antimony-germanate-silicate glasses and their optical properties were investigated in detail.…”

Rare Earth Doped Glasses/Ceramics: Synthesis, Structure, Properties and Their Optical Applications

“…The performances of antimony-germanate-silicate glass-ceramics containing Eu 3+ were elaborated by Żmojda et al [16]. In particular, the mechanisms of crystallization of EuPO 4 nanocrystals located in antimony-germanate-silicate glasses and their optical properties were investigated in detail.…”

Rare Earth Doped Glasses/Ceramics: Synthesis, Structure, Properties and Their Optical Applications

Glass-ceramic optical fibers with controlled crystallization of core doped with europium ions

Structure, properties and wetting behaviour on Si substrates of lead-free low melting-temperature Li2O-ZnO-B2O3-WO3 glasses