Numerical analysis of Oxygen control during growth of Czochralski silicon single crystals

Author

Jomaa, Moez ; M´Hamdi, Mohammed ; Yu Hu ; Nielsen, Oyvind

Author_Institution

SINTEF Mater. & Chem., Oslo, Norway

fYear

2014

fDate

8-13 June 2014

Firstpage

3521

Lastpage

3525

Abstract

In the present work, a set of 2D global furnace simulations accounting for oxygen dissolution and transport have been used to predict Oi content along the produced Silicon crystal. It is shown that Oi content is sensitive to several growth parameters (melt level, crucible rotation, etc.). Results indicate Oxygen tends to increase at the end of the crystal due to a combination of weakening of turbulence and planar velocity in addition to decrease of the melt free surface. Crucible rotation is the most influencing parameter at low melt level. Argon gas pressure and flow have a limited impact at low melt level.

Keywords

crystal growth from melt; dissolving; elemental semiconductors; semiconductor growth; semiconductor process modelling; silicon; 2D global furnace simulations; Czochralski silicon single crystal growth; Si; argon gas pressure; crucible rotation; gas flow rate; growth parameters; melt free surface; melt level; oxygen control; oxygen dissolution; oxygen transport; planar velocity; turbulence weakening; Argon; Crystals; Fluid flow; Furnaces; Numerical models; Oxygen; Silicon; Czochralski; Oxygen; photovoltaic cells; silicon;

fLanguage

English

Publisher

ieee

Conference_Titel

Photovoltaic Specialist Conference (PVSC), 2014 IEEE 40th

Conference_Location

Denver, CO

Type

conf

DOI

10.1109/PVSC.2014.6924868

Filename

6924868