Fluorite Phase Transformations under Vacuum

结晶过程及技术期刊(英文) Pub Date : 2014-06-23 DOI:10.4236/JCPT.2014.43020

J. Mouhovski, O. Vitov, V. Dimov, B. Kostova, S. Gechev

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Abstract

Complex crystal aggregates from fluorspar vapor phase were grown at specific low-pressure/high-temperature conditions. The quasi-equilibrium of initiated crystal-chemical reactions at the proceeding vapour-crystal phase transformation was strongly dependent on the mass-transport inside an originally designed multicameral crucible, loaded by several portions of natural fluorite. By changing the temperature pressure over the already molten fluorspar portions as well as the gas-permeability of the channels connecting different sections in crucible interior to vacuum ambient, one may control the rate of gaseous-vapour diffusion and the degree of supper-saturation inside the peripheral crucible compartment wherein nucleation and crystal growing occurred. In this way, grown aggregates revealed a complicated habit formed during three-stage growing process provided by relevant thermodynamic and phase. Residual stresses were not observed in the aggregates whereas those in simultaneously grown boules from the non-vaporized melts in crucible cameras were clearly distinguished. The optical transmittance spectra of the boules were obtained considerably better, especially in the UV, comparing to those for crystal aggregates, both showing several peaks of specific light-absorption due to enhanced presence of rare-earth (RE) impurities. The aggregates manifest nearly full reflectivity from Vis to near IR region. The vapor phase growth mechanisms, when natural fluorite with some RE contents has been used, were explained on thermodynamic grounds that shown the manner of reliable control on the phenomenon. The results were anticipated to help for developing new perspective techniques for growth from vapor of several fluoride compounds with complex structure and composition and wide application. It was speculated that similar growth mechanisms of CaF2 crystals were possible on the moon in its very early period of formation.

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真空条件下萤石相变研究

在特定的低压/高温条件下，从萤石气相中生长出复杂的晶体聚集体。在气晶相变过程中引发的晶体化学反应的准平衡强烈依赖于原始设计的多组分坩埚内的质量输运，该坩埚由几部分天然萤石加载。通过改变已经熔化的萤石部分的温度压力，以及坩埚内部连接不同部分与真空环境的通道的透气性，可以控制气体-蒸气扩散的速度和坩埚外围室内发生成核和晶体生长的过饱和程度。由此可见，生长的骨料在发育过程中呈现出一种复杂的生长习性。在聚合体中没有观察到残余应力，而在坩埚摄像机中，从非汽化熔体中同时生长的气泡中可以清楚地分辨出残余应力。与晶体聚集体的透射光谱相比，获得了明显更好的光学透射光谱，特别是在紫外线下，由于稀土(RE)杂质的存在增强，两者都显示出几个特定光吸收峰。从可见光区到近红外区，聚集体表现出几乎完全的反射率。从热力学角度解释了含稀土的天然萤石的气相生长机理，指出了控制该现象的可靠方法。研究结果有望为开发结构组成复杂、应用广泛的氟化物气相生长新技术提供参考。据推测，在月球形成的早期，CaF2晶体的类似生长机制是可能的。

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结晶过程及技术期刊(英文)

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