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Literature DB >> 24122278

Biaxial coherence length in a nematic π-cell.

R Hamdi¹, G Lombardo, M P de Santo, R Barberi.

Abstract

In a highly frustrated calamitic nematic phase, the strain can be relaxed by lowering the nematic order: the starting uniaxial symmetry can be broken and it can be replaced locally with transient biaxial domains. Using simple optical retardation measurements, we estimate the length scale over which the biaxial disturbance decays in space within a π-cell submitted to a weak electric field. We also characterise the transition cascade from the uniaxial splay texture to a bend texture through slow defect motion.

Entities: Disease

Year: 2013 PMID： 24122278 DOI： 10.1140/epje/i2013-13115-y

Source DB: PubMed Journal: Eur Phys J E Soft Matter ISSN： 1292-8941 Impact factor: 1.890

14 in total

Biaxial coherence length in a nematic π-cell.

1. Biaxial melting of the nematic order under a strong electric field.

2. Electric field induced order reconstruction in a nematic cell.

3. Defect core structure in nematic liquid crystals.

4. Liquid crystal director dynamics imaged using two-photon fluorescence microscopy with remote focusing.

5. Time resolved experimental analysis of the electric field induced biaxial order reconstruction in nematics.

6. Inhomogeneous bulk nematic order reconstruction.

7. Defect-enhanced nematic surface order reconstruction.

8. Dynamical numerical model for nematic order reconstruction.

9. Mechanically induced biaxial transition in a nanoconfined nematic liquid crystal with a topological defect.

10. Topographic-pattern-induced homeotropic alignment of liquid crystals.

1. Electric field-driven reconfigurable multistable topological defect patterns.