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Abstract
Numerical computations were carried out to study a convectional mode and an electrical field in silicon melts in a cylindrical container that is sufficiently long in an axial direction under various magnetic fields. Under both no and vertical magnetic fields, the fluid represented a rigid rotation. Under a horizontal magnetic field, flow in the circumferential direction was suppressed strongly. Under a rotating magnetic field, fluid rotated with the rotational rate of a magnetic field when the rotational rate of a magnetic field and that of a container were different. These flow patterns could be successfully explained by considering an electric field.