Litcius/Paper detail

Heat treatment and fiber drawing effect on the luminescence properties of RE-doped optical fibers (RE = Yb, Tm, Ho)

Petr Vařák, Ivan Kašík, Pavel Peterka, Jan Aubrecht, Jan Mrázek, Michal Kamrádek, Ondřej Podrazký, Ivo Bartoň, Marcin Franczyk, Ryszard Buczynski, Pavel Honzátko

2022Optics Express33 citationsDOIOpen Access PDF

Abstract

We investigate the influence of various optical fiber fabrication processes on the fluorescence decay of RE ions commonly used in fiber lasers and amplifiers, i.e. Yb 3+ , Tm 3+ and Ho 3+ . Optical fiber preforms were prepared using the MCVD method combined with Al 2 O 3 nanoparticle doping and subjected to subsequent heat treatment processes such as preform elongation and fiber drawing. The fluorescence decay of RE ions was measured in multiple stages of optical fiber preparation: in an original preform, in an elongated preform (cane), in a standard fiber, and in an overcladded fiber. It was found that heat treatment processing of the preforms generally leads to a faster fluorescence decay, which can be explained by the diffusion of dopants and clustering of RE ions. The fiber drawing exhibited a greater effect compared to preform elongation, which was ascribed to a faster cooling rate of the process. In general, the heat treatment of RE-doped silica glass preforms leads to the decline of fluorescence decay.

Topics & Concepts

Materials scienceOptical fiberHard-clad silica optical fiberFiberAll-silica fiberOpticsFabricationLuminescenceComposite materialFluorescencePhotonic-crystal fiberPlastic-clad silica fiberFiber laserFiber optic sensorDopingPlastic optical fiberDiffusionOptoelectronicsDopantGlass fiberIonDispersion-shifted fiberLaserZero-dispersion wavelengthLaser-induced fluorescenceSilica fiberLuminescence Properties of Advanced MaterialsGlass properties and applicationsPhotonic Crystal and Fiber Optics