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17 May 2010 Thermal stress anomaly in rare-earth-doped fiber materials for high-power fiber lasers codoped with aluminum and phosphorus
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Abstract
It is well known that thermal stress can significantly influence the properties of optical fibers. These stresses are caused by variations in the coefficient of thermal expansion (CTE) of the differently doped areas in the fiber, like the core and the cladding. On the one hand, the stress has a strong effect on the mechanical stability of fibers. On the other hand, the stress also modifies the most essential property of a fiber, the refractive index distribution, and therefore also the propagation properties. Similar to the effect of generation of birefringence in polarisation maintaining fibers, thermal stress also generates changes in the refractive index of the differently doped regions in the fiber. We report on results of non-destructive polarimetric stress measurements in ytterbium doped fiber preforms, that are codoped with aluminum as well as with phosphorus. Simple models of changes in the CTE for samples doped with multiple elements assume an additive superposition of the changes caused by each dopant. In contrast to such simple models, our investigations have shown that the induced stress cannot be explained by an additive change in the CTE of the glass material. The occurring stresses turn out to be smaller than the simple sum of the effects generated by the respective dopants. This result is also in agreement with measurements of the refractive index profile of these samples. The changes in the index are again not additive for doping with both aluminum and phosphorus.
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F. Just, S. Unger, J. Kirchhof, V. Reichel, and H. Bartelt "Thermal stress anomaly in rare-earth-doped fiber materials for high-power fiber lasers codoped with aluminum and phosphorus", Proc. SPIE 7721, Solid State Lasers and Amplifiers IV, and High-Power Lasers, 772106 (17 May 2010); doi: 10.1117/12.854193; https://doi.org/10.1117/12.854193
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