期刊
CRYSTENGCOMM
卷 24, 期 25, 页码 4509-4518出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d2ce00547f
关键词
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资金
- China Scholarship Council
This study investigates the dopant valence and ion distributions in ionic crystals during growth, aiming to establish a physico-chemical model for numerical simulation. The Ti-doped sapphire growth is used as an example, and the point defect diffusion-reaction model is applied to simulate the Ti ion distributions. The effect of temperature gradient and growth rate is also examined.
Dopant valence and ion distributions during the growth of ionic crystals are investigated with the aim of establishing a physico-chemical model for further numerical simulation of their behavior during the crystal growth process. Ti-doped sapphire growth is studied as an example. It is shown that the relevant physical parameters including diffusion coefficient and reaction rate constant of corresponding point defects and chemical reactions, as well as appropriate boundary conditions, can be obtained from annealing experiments under various atmospheres and temperatures, or from transport mechanism studies. The point defect diffusion-reaction model is then applied to the simulation of Ti ion distributions in Ti:Al2O3 Czochralski growth. The effect of temperature gradient and growth rate is studied. The series of steps needed in order to establish an efficient model is discussed.
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