Download This PaperEffect of Biphasic-Phase on the Mid-Infrared Emission Properties of Pr3+ Doped Gese2-Ga2se3 Chalcogenide Glass Ceramics
21 Pages Posted: 23 Mar 2022
Abstract
Mid-infrared (MIR) laser operating at 2-5 μm has gained increasing interest because of the extensive applications in biomedicine, sensing to nanomaterial science. Chalcogenide-glass (ChG) is a kind of matrix that is promising for MIR laser due to its low phonon energy and wide infrared transmittance region. However, significant challenges in the enhancement of MIR optical properties of rare-earth ion-doped ChGs still exist. Here, enhanced MIR emission was realized in Pr3+-doped chalcogenide glass ceramics (ChGCs). By controlling the heat treatment conditions, biphasic-phase nanocrystals of Ga2Se3 and GeSe2 were successively precipitated in the glass host. Compared to the as-prepared glass, the GCs exhibit an obvious increase in emission intensity by more than 5 times. Furthermore, the obtained ChGC enables large stimulated emission cross section 0.1×10-20 cm2 at 2.44 μm and 0.62×10-20 cm2 at 4.75 μm. The superior optical properties of the ChGC indicate that it is an attractive candidate for MIR laser.
Keywords: Chalcogenides, Glass-ceramic, Mid-infrared, Luminescence
Suggested Citation: Suggested Citation