Add to ORKGMelt flow plays an important role in directional solidification of multicrystalline silicon influencing the temperature field and the crystallization interface as well as the transport of impurities. This work investigates the potential of a traveling magnetic field (TMF) for an active control of the melt flow. A system of 3D numerical models was developed and adapted based on open-source software for calculations of Lorentz force, melt flow, and related phenomena. Isothermal and non-isothermal model experiments with a square GaInSn melt were used to validate the numerical models by direct velocity measurements. Several new 3D flow structures of turbulent TMF flows were observed for different melt heights. Further numerical parameter studie...
The roles of traveling magnetic fields (TMFs) within the transport phenomena during the directional ...
AbstractComputational modeling is an essential tool in modern crystal growth technology and developm...
In this paper, the optimal control of traveling magnetic fields in a process of crystal growth from ...
Melt flow plays an important role in directional solidification of multicrystalline silicon influenc...
The role of various growth and process conditions (Lorentz force, temperature gradients in the melt ...
A new experimental setup containing a GaInSn melt with a square horizontal cross section of 10×10 cm...
Low-temperature model experiments and 3D, time-dependent flow simulations with relevance to the melt...
Directional solidification of large multi-crystalline silicon ingots is a distinctly unsteady proces...
International audienceAbstract Silicon is the most widely used raw material in photovoltaic industry...
High-quality silicon crystals provide the basis of many industrial technological advances, including...
Three-dimensional transient numerical simulations were carried out to investigate the melt convectio...
The bulk flow of molten silicon in the floating-zone process with an applied axial magnetic field, f...
This review considers the stability of melt motion in two simplified models of semiconductor crystal...
International audienceMulti crystalline silicon wafers have a lower production cost compared to mono...
International audienceSilicon is the most widely used semiconductor for photovoltaic solar cells, an...
The roles of traveling magnetic fields (TMFs) within the transport phenomena during the directional ...
AbstractComputational modeling is an essential tool in modern crystal growth technology and developm...
In this paper, the optimal control of traveling magnetic fields in a process of crystal growth from ...
Melt flow plays an important role in directional solidification of multicrystalline silicon influenc...
The role of various growth and process conditions (Lorentz force, temperature gradients in the melt ...
A new experimental setup containing a GaInSn melt with a square horizontal cross section of 10×10 cm...
Low-temperature model experiments and 3D, time-dependent flow simulations with relevance to the melt...
Directional solidification of large multi-crystalline silicon ingots is a distinctly unsteady proces...
International audienceAbstract Silicon is the most widely used raw material in photovoltaic industry...
High-quality silicon crystals provide the basis of many industrial technological advances, including...
Three-dimensional transient numerical simulations were carried out to investigate the melt convectio...
The bulk flow of molten silicon in the floating-zone process with an applied axial magnetic field, f...
This review considers the stability of melt motion in two simplified models of semiconductor crystal...
International audienceMulti crystalline silicon wafers have a lower production cost compared to mono...
International audienceSilicon is the most widely used semiconductor for photovoltaic solar cells, an...
The roles of traveling magnetic fields (TMFs) within the transport phenomena during the directional ...
AbstractComputational modeling is an essential tool in modern crystal growth technology and developm...
In this paper, the optimal control of traveling magnetic fields in a process of crystal growth from ...