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Magnetic instabilities of smectic-C liquid crystals
E. Meirovitch, Z. Luz, S. Alexander
Weizmann Institute of Science
Hebrew University of Jerusalem
Research output
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Contribution to journal
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Article
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peer-review
14
Scopus citations
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Keyphrases
Allowed Regions
50%
Deviation Angle
50%
Elastic Deformation
50%
External Magnetic Field
50%
First-order Transition
50%
Fixed Boundary Conditions
50%
Flat Samples
50%
Free Energy
50%
Interlayer Distance
50%
Internal Parameters
50%
Liquid Crystal
100%
Magnetic Field
100%
Magnetic Instability
100%
Maximum Deviation
50%
Order Parameter
50%
Smectic C
100%
Smectic Layers
100%
Stability Condition
50%
Tilt Angle
50%
Variational Problem
50%
Engineering
Assuming
50%
Boundary Condition
50%
Dimensional Variation
50%
Elastic Deformation
50%
Energy Engineering
50%
Explicit Expression
50%
External Magnetic Field
50%
Interlayer Distance
50%
Internals
50%
Liquid Crystal
100%
Magnetic Field
100%
One Dimensional
50%
Stability Condition
50%
Mathematics
Boundary Condition
50%
Explicit Expression
50%
External Magnetic Field
50%
Magnetic Field
100%
Variational Problem
50%
Material Science
Density
100%
Elastic Deformation
100%
Liquid Crystal
100%
Chemical Engineering
Gibbs Free Energy
100%