Orientational bistability in ferronematic liquid crystals with negative diamagnetic anisotropy

In the framework of continuum theory we study magnetic field induced orientational transitions in a ferronematic, i.e. suspension of single-domain magnetic particles in a nematic liquid crystal. We consider the case of negative diamagnetic susceptibility anisotropy of a liquid crystal and soft plana...

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Bibliographic Details
Published in:Journal of magnetism and magnetic materials 2015-11, Vol.393, p.517-525
Main Authors: Zakhlevnykh, A.N., Petrov, D.A.
Format: Article
Language:English
Subjects:
Anisotropy
Continuums
Diamagnetism
Ferronematic
Liquid crystal
Liquid crystals
Magnetic fields
Magnetic suspension
Mathematical analysis
Mathematical models
Nanoparticles
Optical non-linearity
Orientational bistability
Segregation effect
Segregations
Soft coupling
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Summary:In the framework of continuum theory we study magnetic field induced orientational transitions in a ferronematic, i.e. suspension of single-domain magnetic particles in a nematic liquid crystal. We consider the case of negative diamagnetic susceptibility anisotropy of a liquid crystal and soft planar coupling of impurity particles with a liquid crystal matrix. We found tricritical behavior of the threshold transition in a magnetic field from perturbed state into uniform planar state. This transition can be the first or second order, depending on the parameter of the magnetic phase segregation. We analytically derive the expression for the tricritical segregation parameter that determines the character of a transition. We show that ferronematic has a large magneto-optical non-linearity which is the result of the director reorientation under external field. Comparison of results of numerical calculations with experimental data has been carried out. •We study orientational and magnetooptical properties of ferronematics.•We obtain the phase diagram for soft coupling of nanoparticles and liquid crystal.•We examine the character of magnetic field induced orientational transitions.•We found tricritical behavior of the transition from perturbed to uniform state.•We study the optical phase lag and the capacity of ferronematic cell.
ISSN:0304-8853
DOI:10.1016/j.jmmm.2015.06.021