Author
Listed:
- Nerea Sebastián
(Jožef Stefan Institute)
- Matija Lovšin
(Jožef Stefan Institute
University of Ljubljana, Faculty of Mathematics and Physics)
- Brecht Berteloot
(Ghent University)
- Natan Osterman
(Jožef Stefan Institute
University of Ljubljana, Faculty of Mathematics and Physics)
- Andrej Petelin
(Jožef Stefan Institute
University of Ljubljana, Faculty of Mathematics and Physics)
- Richard J. Mandle
(University of Leeds
University of Leeds)
- Satoshi Aya
(South China University of Technology
South China University of Technology)
- Mingjun Huang
(South China University of Technology
South China University of Technology)
- Irena Drevenšek-Olenik
(Jožef Stefan Institute
University of Ljubljana, Faculty of Mathematics and Physics)
- Kristiaan Neyts
(Ghent University)
- Alenka Mertelj
(Jožef Stefan Institute)
Abstract
The recently discovered ferroelectric nematic liquids incorporate to the functional combination of fluidity, processability and anisotropic optical properties of nematic liquids, an astonishing range of physical properties derived from the phase polarity. Among them, the remarkably large values of second order optical susceptibility encourage to exploit these new materials for non-linear photonic applications. Here we show that photopatterning of the alignment layer can be used to structure polarization patterns. To do so, we take advantage of the flexoelectric effect and design splay structures that geometrically define the polarization direction. We demonstrate the creation of periodic polarization structures and the possibility of guiding polarization by embedding splay structures in uniform backgrounds. The demonstrated capabilities of polarization patterning, open a promising new route for the design of ferroelectric nematic based photonic structures and their exploitation.
Suggested Citation
Nerea Sebastián & Matija Lovšin & Brecht Berteloot & Natan Osterman & Andrej Petelin & Richard J. Mandle & Satoshi Aya & Mingjun Huang & Irena Drevenšek-Olenik & Kristiaan Neyts & Alenka Mertelj, 2023.
"Polarization patterning in ferroelectric nematic liquids via flexoelectric coupling,"
Nature Communications, Nature, vol. 14(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38749-2
DOI: 10.1038/s41467-023-38749-2
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