Between glass and crystal: Glass–ceramics, a new way for optical materials

M. Mortier
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引用次数: 29

Abstract

Abstract We report results of controlled devitrification of rare-earth-doped glasses made in order to improve the initial spectroscopic properties of the as-melted glass to obtain crystal-like properties. This study is made to allow the design of reduced-size photonic devices owing to the use of more efficient active materials. The main possibilities of devitrification of glasses are evaluated in two glassy systems and compared. The key point is the choice of the glass composition allowing partial crystallization during thermal treatments adapted to the thermal stability of the material. A strong improvement in the spectroscopic properties of the rare-earth ions has been obtained in a heterogeneously nucleated glass (GeO2–PbO–PbF2). The final glass-ceramic is ultratransparent with weak additional losses mainly in the short-wavelength region. Another possibility has been evaluated through the spinodal decomposition of a fluorozirconate glass (ZrF4–LaF3–AlF3–GaF3–ErF3). Its spectroscopic properties are also mostly crystal like with only a weak scattering-induced reduction of transparency.
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介于玻璃与晶体之间:玻璃陶瓷——光学材料的新途径
摘要:本文报道了稀土掺杂玻璃的受控反玻化的研究结果,以改善熔融态玻璃的初始光谱性能,从而获得晶体样性能。由于使用了更有效的活性材料,本研究允许设计更小尺寸的光子器件。对两种玻璃体系中玻璃反玻璃化的主要可能性进行了评价和比较。关键是玻璃成分的选择,允许在热处理过程中部分结晶,以适应材料的热稳定性。稀土离子在非均质成核玻璃(GeO2-PbO-PbF2)中的光谱性质得到了很大的改善。最终的玻璃陶瓷是超透明的,主要在短波长区域有微弱的附加损耗。通过氟锆酸盐玻璃(ZrF4-LaF3-AlF3-GaF3-ErF3)的spinodal分解评估了另一种可能性。它的光谱性质也大多像晶体一样,只有微弱的散射引起的透明度降低。
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