3D numerical simulation of free surface shape during the crystal growth of floating zone (FZ) silicon

Xue Feng Han; Xin Liu; Satoshi Nakano; Hirofumi Harada; Yoshiji Miyamura; Koichi Kakimoto

doi:10.1016/j.jcrysgro.2017.12.012

3D numerical simulation of free surface shape during the crystal growth of floating zone (FZ) silicon

Xue Feng Han, Xin Liu, Satoshi Nakano, Hirofumi Harada, Yoshiji Miyamura, Koichi Kakimoto

Division of Renewable Energy Dynamics

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

In FZ growth processes, the stability of the free surface is important in the production of single crystal silicon with high quality. To investigate the shape of the free surface in the FZ silicon crystal growth, a 3D numerical model that included gas and liquid phases was developed. In this present study, 3D Young-Laplacian equations have been solved using the Volume of Fluid (VOF) Model. Using this new model, we predicted the 3D shape of the free surface in FZ silicon crystal growth. The effect of magnetic pressure on shape of free surface has been considered. In particular, the free surface of the eccentric growth model, which could not be previously solved using the 2D Young-Laplacian equations, was solved using the VOF model. The calculation results are validated by the experimental results.

Original language	English
Pages (from-to)	269-274
Number of pages	6
Journal	Journal of Crystal Growth
Volume	483
DOIs	https://doi.org/10.1016/j.jcrysgro.2017.12.012
Publication status	Published - Feb 1 2018

All Science Journal Classification (ASJC) codes

Condensed Matter Physics
Inorganic Chemistry
Materials Chemistry

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10.1016/j.jcrysgro.2017.12.012

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title = "3D numerical simulation of free surface shape during the crystal growth of floating zone (FZ) silicon",

abstract = "In FZ growth processes, the stability of the free surface is important in the production of single crystal silicon with high quality. To investigate the shape of the free surface in the FZ silicon crystal growth, a 3D numerical model that included gas and liquid phases was developed. In this present study, 3D Young-Laplacian equations have been solved using the Volume of Fluid (VOF) Model. Using this new model, we predicted the 3D shape of the free surface in FZ silicon crystal growth. The effect of magnetic pressure on shape of free surface has been considered. In particular, the free surface of the eccentric growth model, which could not be previously solved using the 2D Young-Laplacian equations, was solved using the VOF model. The calculation results are validated by the experimental results.",

author = "Han, {Xue Feng} and Xin Liu and Satoshi Nakano and Hirofumi Harada and Yoshiji Miyamura and Koichi Kakimoto",

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T1 - 3D numerical simulation of free surface shape during the crystal growth of floating zone (FZ) silicon

AU - Han, Xue Feng

AU - Liu, Xin

AU - Nakano, Satoshi

AU - Harada, Hirofumi

AU - Miyamura, Yoshiji

AU - Kakimoto, Koichi

PY - 2018/2/1

Y1 - 2018/2/1

N2 - In FZ growth processes, the stability of the free surface is important in the production of single crystal silicon with high quality. To investigate the shape of the free surface in the FZ silicon crystal growth, a 3D numerical model that included gas and liquid phases was developed. In this present study, 3D Young-Laplacian equations have been solved using the Volume of Fluid (VOF) Model. Using this new model, we predicted the 3D shape of the free surface in FZ silicon crystal growth. The effect of magnetic pressure on shape of free surface has been considered. In particular, the free surface of the eccentric growth model, which could not be previously solved using the 2D Young-Laplacian equations, was solved using the VOF model. The calculation results are validated by the experimental results.

AB - In FZ growth processes, the stability of the free surface is important in the production of single crystal silicon with high quality. To investigate the shape of the free surface in the FZ silicon crystal growth, a 3D numerical model that included gas and liquid phases was developed. In this present study, 3D Young-Laplacian equations have been solved using the Volume of Fluid (VOF) Model. Using this new model, we predicted the 3D shape of the free surface in FZ silicon crystal growth. The effect of magnetic pressure on shape of free surface has been considered. In particular, the free surface of the eccentric growth model, which could not be previously solved using the 2D Young-Laplacian equations, was solved using the VOF model. The calculation results are validated by the experimental results.

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JO - Journal of Crystal Growth

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3D numerical simulation of free surface shape during the crystal growth of floating zone (FZ) silicon

Abstract

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