Magnetic field-induced orientational phases of ferronematics in shear flow |
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Authors: | DV Makarov AN Zakhlevnykh |
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Institution: | Physics of Phase Transitions Department, Perm State University, 15 Bukirev Street, 614990 Perm, Russia |
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Abstract: | We examine the effect of shear flow on the orientational phase transitions induced by a magnetic field in ferronematic liquid crystals. Continuum approach based on the generalized Leslie–Ericksen theory is used to describe the dynamics of ferronematic liquid crystals. We consider three orientations of the magnetic field in a plane of shear flow. Stationary solutions for the director and the magnetization are obtained as functions of the magnetic field strength for different values of material parameters. Our results show that shear flow can lead to the shift of the field thresholds or to a “smoothing” of the magnetic field-induced transitions in ferronematics. In the limiting case of pure nematic liquid crystals, we revealed threshold effects, which are unstipulated by the orientational elasticity of a liquid crystal, in contrast to the conventional Fréedericksz transition. |
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Keywords: | 64 70 Md 61 30 Dk 75 50 Mm |
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