Thermal simulation of the Czochralski silicon growth process by three different models and comparison with experimental results

被引:75
|
作者
Dornberger, E [1 ]
Tomzig, E [1 ]
Seidl, A [1 ]
Schmitt, S [1 ]
Leister, HJ [1 ]
Schmitt, C [1 ]
Muller, G [1 ]
机构
[1] UNIV ERLANGEN NURNBERG,INST WERKSTOFFWISSENSCH 6,KRISTALLABOR,D-91058 ERLANGEN,GERMANY
来源
JOURNAL OF CRYSTAL GROWTH | 1997年 / 180卷 / 3-4期
关键词
silicon; crystal growth; simulation;
D O I
10.1016/S0022-0248(97)00241-8
中图分类号
O7 [晶体学];
学科分类号
0702 ; 070205 ; 0703 ; 080501 ;
摘要
Temperatures were measured within an industrial Czochralski silicon puller and compared with simulation results. The temperatures were measured by thermocouples in the crystal along the axis as well as inside the lateral and bottom insulations. The temperature distribution of the furnace was computed using three different software codes. It could be demonstrated that today's simulation methods are capable of handling such a complex heat transfer simulation task as that encountered in the case of Czochralski silicon growth furnaces, with the exception of the melt convection problem, which has not yet been satisfactorily solved.
引用
收藏
页码:461 / 467
页数:7
相关论文
共 50 条
  • [31] Fully three dimensional numerical analysis of industrial scale silicon Czochralski growth with a transverse magnetic field
    Yokoyama, R.
    Nakamura, T.
    Fujiwara, T.
    Hamaogi, K.
    Takatani, K.
    JOURNAL OF CRYSTAL GROWTH, 2017, 468 : 905 - 908
  • [32] Comparison of different combustion models in enclosure fire simulation
    Xue, H
    Ho, JC
    Cheng, YM
    FIRE SAFETY JOURNAL, 2001, 36 (01) : 37 - 54
  • [33] Coupled Thermal Solidification Process Simulation of Sapphire Growth
    Trasca, R. A.
    Sistaninia, M.
    Reiss, G.
    Essl, W.
    Raninger, P.
    Lohrasbi, S.
    INTEGRATING MATERIALS AND MANUFACTURING INNOVATION, 2024, 13 (01) : 1 - 13
  • [34] Crystal surface heat transfer during the growth of 300mm monocrystalline silicon by the Czochralski process
    Wang, Zhengxing
    Ren, Yongsheng
    Ma, Wenhui
    Lv, Guoqiang
    Tan, Mingke
    Li, Xuehua
    Li, Shaoyuan
    Wan, Xiaohan
    Zhan, Shu
    Zeng, Yi
    Li, Ruopu
    INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2025, 236
  • [35] Numerical study of heat transport and fluid flow during the silicon crystal growth process by the Czochralski method
    金超花
    Journal of Semiconductors, 2013, (06) : 38 - 43
  • [36] Numerical study of heat transport and fluid flow during the silicon crystal growth process by the Czochralski method
    Jin Chaohua
    JOURNAL OF SEMICONDUCTORS, 2013, 34 (06)
  • [37] Numerical and experimental investigation of oxygen transport in 300 mm Czochralski silicon crystal growth with transverse magnetic fields
    Liu, Wenkai
    Chen, Songsong
    Jiang, Fuman
    Liu, Yun
    Xue, Zhongying
    Wei, Xing
    VACUUM, 2025, 233
  • [38] Comparison of surrogate models with different methods in groundwater remediation process
    Luo, Jiannan
    Lu, Wenxi
    JOURNAL OF EARTH SYSTEM SCIENCE, 2014, 123 (07) : 1579 - 1589
  • [39] Simulation of winter wheat yield and its variability in different climates of Europe: A comparison of eight crop growth models
    Palosuo, Taru
    Kersebaum, Kurt Christian
    Angulo, Carlos
    Hlavinka, Petr
    Moriondo, Marco
    Olesen, Jorgen E.
    Patil, Ravi H.
    Ruget, Francoise
    Rumbaur, Christian
    Takac, Jozef
    Trnka, Miroslav
    Bindi, Marco
    Caldag, Baris
    Ewert, Frank
    Ferrise, Roberto
    Mirschel, Wilfried
    Saylan, Levent
    Siska, Bernard
    Rotter, Reimund
    EUROPEAN JOURNAL OF AGRONOMY, 2011, 35 (03) : 103 - 114
  • [40] 3D Simulation of the Coil Geometry Effect on the Induction Heating Process in Czochralski Crystal Growth System
    Heidari, Hamed
    Tavakoli, Mohammad Hossein
    Shokri, AbdolJabbar
    Mohamad Moradi, Behnam
    Mohammad Sharifi, Omid
    Asaad, M. Jamil M.
    CRYSTAL RESEARCH AND TECHNOLOGY, 2020, 55 (03)
12345