Experiment and simulation on interface shapes of an yttrium aluminium garnet miniature molten zone formed using the laser-heated pedestal growth method for single-crystal fibers

P. Y. Chen; C. L Chang; K. Y. Huang; C. W. Lan; W. H. Cheng; S. L Huang

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Experiment and simulation on interface shapes of an yttrium aluminium garnet miniature molten zone formed using the laser-heated pedestal growth method for single-crystal fibers

机译：激光加热基座生长法形成单晶纤维的钇铝石榴石微熔区界面形状的实验与模拟

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A two-dimensional simulation was employed to study the melt/air and melt/solid interface shapes of the miniature molten zone formed in a laser-heated pedestal growth (LHPG) system. Using a non-orthogonal body-fitting grid system with the control-volume finite-difference method, the interface shape can be determined both efficiently and accurately. During stable growth, the dependence of the molten-zone length and shape on the heating CO_2 laser is examined in detail under both the maximum and the minimum allowed powers with various growth speeds. The effect of gravity on the miniature molten zone is also simulated and the possibility of horizontally oriented LHPG is revealed. Such a horizontal system is good for the growth of long crystal fibers.

机译：使用二维模拟来研究在激光加热的基座生长（LHPG）系统中形成的微型熔融区的熔融/空气和熔融/固体界面形状。使用具有控制量有限差分方法的非正交拟合网格系统，可以高效，准确地确定界面形状。在稳定的生长过程中，以各种生长速度在最大和最小允许功率下，详细研究了熔融区长度和形状对加热的CO_2激光器的依赖性。还模拟了重力对微型熔融区的影响，并揭示了水平取向的LHPG的可能性。这样的水平系统有利于长晶体纤维的生长。

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《Journal of Applied Crystallography》 |2009年第4期|共11页
作者
P. Y. Chen; C. L Chang; K. Y. Huang; C. W. Lan; W. H. Cheng; S. L Huang;
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原文格式 PDF
正文语种 eng
中图分类 549KD002;
关键词
interface shapes; single-crystal fibers; yttrium; aluminium;

机译：界面形状;单晶纤维;钇;铝;

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1. Experiment and simulation on interface shapes of an yttrium aluminium garnet miniature molten zone formed using the laser-heated pedestal growth method for single-crystal fibers [J] . P. Y. Chen, C. L Chang, K. Y. Huang, Journal of Applied Crystallography . 2009,第4期

机译：激光加热基座生长法形成单晶纤维的钇铝石榴石微熔区界面形状的实验与模拟
2. Two-Dimensional Simulations on Heat Transfer and Fluid Flow for Yttrium Aluminium Garnet Single-Crystal Fiber in Laser-Heated Pedestal Growth System [J] . Peng-Yi Chen, Chun-Lin Chang, Chung-Wen Lan, Japanese journal of applied physics . 2009,第11期

机译：激光加热基座生长系统中钇铝石榴石单晶纤维传热和流体流动的二维模拟
3. Simulation and experiment on laser-heated pedestal growth of chromium-doped yttrium aluminum garnet single-crystal fiber [J] . Chun-Lin Chang, Sheng-Lung Huang, Chia-Yao Lo, Journal of Crystal Growth . 2011,第1期

机译：掺铬钇铝石榴石单晶纤维的激光加热基座生长模拟与实验
4. Single-crystal, rare-earth doped YAG fiber lasers grown by the laser-heated pedestal growth technique [C] . Craig D. Nie, James A. Harrington, Yuan Li, Fiber lasers XI: technology, systems, and applications . 2014

机译：通过激光加热基座生长技术生长的单晶稀土掺杂YAG光纤激光器
5. Drawing of single-crystal and glass-clad lithium tantalate fibers by the laser-heated pedestal growth method [O] . S. C. Pei 2012

机译：用激光加热的基座生长法拉伸单晶和玻璃包覆的钽酸锂纤维
6. Growth of Barium Metaborate (BaB2O4) Single Crystal Fibers by the Laser-Heated Pedestal Growth Method. (Reannouncement with New Availability Information). [R] . Tang, D. Y., Route, R. K., Feigelson, R. S. 1988

机译：激光加热基座生长法生长钡代硼酸盐（BaB2O4）单晶纤维。（重新公布新的可用性信息）。

Experiment and simulation on interface shapes of an yttrium aluminium garnet miniature molten zone formed using the laser-heated pedestal growth method for single-crystal fibers

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