Orthoconic antiferroelectric liquid crystalline materials

Czuprynski, K.; Gasowska, J.; Tykarska, M.; Kula, P.; Sokól, E.; Piecek, W.; Oton, J.M.; Castillo, M.P.L.

doi:10.1364/jot.72.000655

Orthoconic antiferroelectric liquid crystalline materials

Czuprynski, K.; Gasowska, J.; Tykarska, M.; Kula, P.; Sokól, E.; Piecek, W.; Oton, J.M.; Castillo, M.P.L.

Authors

K. Czuprynski

J. Gasowska

M. Tykarska

P. Kula

E. Sokól

W. Piecek

J.M. Oton

M.P.L. Castillo

Contributors

Dr Julieta Milian litka.milian@durham.ac.uk
Other

Abstract

New LC materials based on chain fluorinated homologous ester series and exhibiting high tilt angles of the synclinic and anticlinic smectic C phases to the layer surface are synthesized. Their mixtures in surface-stabilized geometry show an unusually huge change of optical properties after application of an electric field during the transition from the antiferroelectric to the ferroelectric state. In the antiferroelectric state they are optically negative uniaxial liquid crystals with the optic axis perpendicular to the cell plates, while in the ferroelectric state they become optically positive biaxial liquid crystals with optic axis parallel to the glass plates. The results of electrooptical characterization of the mixtures are presented.

Citation

Czuprynski, K., Gasowska, J., Tykarska, M., Kula, P., Sokól, E., Piecek, W., …Castillo, M. (2005). Orthoconic antiferroelectric liquid crystalline materials. Journal of Optical Technology, 72(9), 655-658. https://doi.org/10.1364/jot.72.000655

Journal Article Type	Article
Publication Date	Sep 1, 2005
Deposit Date	Sep 19, 2018
Journal	Journal of Optical Technology
Print ISSN	1070-9762
Publisher	Optica
Peer Reviewed	Peer Reviewed
Volume	72
Issue	9
Pages	655-658
DOI	https://doi.org/10.1364/jot.72.000655
Public URL	https://durham-repository.worktribe.com/output/1314308