Your search keyword '"T. Ostapenko"' showing total 4 results

1. Magnetic control of flexoelectric domains in a nematic fluid

Author

Ágnes Buka, Sarah Dölle, Nándor Éber, Péter Salamon, Ralf Stannarius, and T. Ostapenko

Subjects

Materials science, Condensed matter physics, Fréedericksz transition, Critical voltage, General Chemistry, Condensed Matter Physics, Magnetic field, Condensed Matter::Soft Condensed Matter, Liquid crystal, Orientation (geometry), Wavenumber, Wave vector, Online-Publikation, Twist

Abstract

The formation of flexoelectric stripe patterns (flexodomains) was studied under the influence of external electric and magnetic fields in a nematic liquid crystal. The critical voltage and wavevector of flexodomains were investigated in different geometries by both experiments and simulations. It is demonstrated that upon altering the orientation of the magnetic field with respect to the director, the critical voltage and wavenumber behave substantially differently. In the geometry of the twist Freedericksz transition, a non-monotonic behavior as a function of the magnetic field was found.

Published

2014

2. Aggregation, pretransitional behavior, and optical properties in the isotropic phase of lyotropic chromonic liquid crystals studied in high magnetic fields

Author

Yuriy A. Nastishin, T. Ostapenko, Peter J. Collings, Samuel Sprunt, Oleg D. Lavrentovich, and J. T. Gleeson

Subjects

Birefringence, Materials science, Isotropy, Physics::Optics, Context (language use), General Chemistry, Condensed Matter Physics, Magnetic field, Crystallography, Liquid crystal, Chemical physics, Phase (matter), Lyotropic, Chromonic

Abstract

We report results on the high-field magneto-optical response of four aqueous, lyotropic, chromonic liquid crystal formulations in the isotropic phase. Measurements of the field-induced birefringence at temperatures above the isotropic-nematic coexistence region at high magnetic fields reveal qualitative differences in different materials; these differences can be attributed to the nature of aggregation and are discussed within the context of competing aggregation models. Extending these measurements to very high fields and large optical phase differences reveals the presence of an unexpected optical phenomenon: magnetic field-induced circular birefringence, measured in the Voigt geometry, in a system containing no molecularly chiral species. Possible origins of this effect are discussed.

Published

2013

3. Rupture and recoil of bent-core liquid crystal filaments.

Author

Salili SM, Ostapenko T, Kress O, Bailey C, Weissflog W, Harth K, Eremin A, Stannarius R, and Jákli A

Abstract

The recoil process of free-standing liquid crystal filaments is investigated experimentally and theoretically. We focus on two aspects, the contraction speed of the filament and a spontaneously formed undulation instability. At the moment of rupture, the filaments buckle similarly to the classical Euler buckling of elastic rods. The tip velocity decays with decreasing filament length. The wavelength of buckling affinely decreases with the retracting filament tip. The energy gain related to the decrease of the total length and surface area of the filaments is mainly dissipated by layer rearrangements during thickening of the fibre. A flow back into the meniscus is relevant only in the final stage of the recoil process. We introduce a model for the quantitative description of the filament retraction speed. The dynamics of this recoil behaviour may find relevance as a model for biology-related filaments.

Published

2016

4. Magnetic control of flexoelectric domains in a nematic fluid.

Author

Salamon P, Éber N, Buka Á, Ostapenko T, Dölle S, and Stannarius R

Abstract

The formation of flexoelectric stripe patterns (flexodomains) was studied under the influence of external electric and magnetic fields in a nematic liquid crystal. The critical voltage and wavevector of flexodomains were investigated in different geometries by both experiments and simulations. It is demonstrated that upon altering the orientation of the magnetic field with respect to the director, the critical voltage and wavenumber behave substantially differently. In the geometry of the twist Freedericksz transition, a non-monotonic behavior as a function of the magnetic field was found.

Published

2014