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Optimal Cooling System Design for Increasing the Crystal Growth Rate of Single-Crystal Silicon Ingots in the Czochralski Process Using the Crystal Growth Simulation

Hye Jun Jeon, Hyeonwook Park, Ganesh Koyyada, Salh Alhammadi, Jae Hak Jung

2020Processes21 citationsDOIOpen Access PDF

Abstract

Here, we report a successfully modified Czochralski process system by introducing the cooling system and subsequent examination of the results using crystal growth simulation analysis. Two types of cooling system models have been designed, i.e., long type and double type cooling design (LTCD and DTCD) and their production quality of monocrystalline silicon ingot was compared with that of the basic type cooling design (BTCD) system. The designed cooling system improved the uniformity of the temperature gradient in the crystal and resulted in the significant decrease of the thermal stress. Moreover, the silicon monocrystalline ingot growth rate has been enhanced to 18% by using BTCD system. The detailed simulation results have been discussed in the manuscript. The present research demonstrates that the proposed cooling system would stand as a promising technique to be applied in CZ-Si crystal growth with a large size/high pulling rate.

Topics & Concepts

Monocrystalline siliconIngotMaterials scienceSiliconCrystal (programming language)Crystal growthThermalProcess (computing)Water coolingMechanical engineeringOptoelectronicsCrystallographyMetallurgyComputer scienceThermodynamicsEngineeringChemistryPhysicsAlloyProgramming languageOperating systemSilicon and Solar Cell TechnologiesSolidification and crystal growth phenomenaThin-Film Transistor Technologies