Magnetic Field-Induced Macroscopic Alignment of Liquid-Crystalline Lanthanide Complexes

Magnetic Field-Induced Macroscopic Alignment of Liquid-Crystalline Lanthanide Complexes

We propose a theoretical approach and a numerical method for determining the Frank elastic constants based on the experimental dependence of the effective values of the permittivity components on the magnetic field. The theoretical task was to find the minimum of the free energy and then to solve th...

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Main Authors: Elena Aksenova, Liliya Dobrun, Alexander Kovshik, Evgeny Ryumtsev, Ivan Tambovtcev
Format: Article
Language:English
Published: MDPI AG 2019-09-01
Series:Crystals
Subjects:
liquid crystals
surface anchoring
lanthanidomesogens
direct minimization method
basin-hopping method
Online Access:https://www.mdpi.com/2073-4352/9/10/499
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spelling doaj-5702f84840bb49558705b42ab67f78fd2020-11-25T01:47:15ZengMDPI AGCrystals2073-43522019-09-0191049910.3390/cryst9100499cryst9100499Magnetic Field-Induced Macroscopic Alignment of Liquid-Crystalline Lanthanide ComplexesElena Aksenova0Liliya Dobrun1Alexander Kovshik2Evgeny Ryumtsev3Ivan Tambovtcev4Saint Petersburg State University, 7-9 Universitetskaya Emb., 199034 Saint Petersburg, RussiaSaint Petersburg State University, 7-9 Universitetskaya Emb., 199034 Saint Petersburg, RussiaSaint Petersburg State University, 7-9 Universitetskaya Emb., 199034 Saint Petersburg, RussiaSaint Petersburg State University, 7-9 Universitetskaya Emb., 199034 Saint Petersburg, RussiaSaint Petersburg State University, 7-9 Universitetskaya Emb., 199034 Saint Petersburg, RussiaWe propose a theoretical approach and a numerical method for determining the Frank elastic constants based on the experimental dependence of the effective values of the permittivity components on the magnetic field. The theoretical task was to find the minimum of the free energy and then to solve the inverse problem on finding elastic constants by the least squares root minimizing with experimental data. The proposed approach combines strong and weak models with various pretilt conditions at the boundaries. This model also describes the inhomogeneity of the electric field inside the sample. The proposed method allows to achieve higher accuracy using a small amount of experimental data. This statement is confirmed by the error estimation study, which is also presented in this research. As an experimental sample, we used the gadolinium-based liquid crystal complex, since there are no data on the Frank elastic constants for this complex.https://www.mdpi.com/2073-4352/9/10/499liquid crystalssurface anchoringlanthanidomesogensdirect minimization methodbasin-hopping method
collection DOAJ
language English
format Article
sources DOAJ
author Elena Aksenova
Liliya Dobrun
Alexander Kovshik
Evgeny Ryumtsev
Ivan Tambovtcev
spellingShingle Elena Aksenova
Liliya Dobrun
Alexander Kovshik
Evgeny Ryumtsev
Ivan Tambovtcev
Magnetic Field-Induced Macroscopic Alignment of Liquid-Crystalline Lanthanide Complexes
Crystals
liquid crystals
surface anchoring
lanthanidomesogens
direct minimization method
basin-hopping method
author_facet Elena Aksenova
Liliya Dobrun
Alexander Kovshik
Evgeny Ryumtsev
Ivan Tambovtcev
author_sort Elena Aksenova
title Magnetic Field-Induced Macroscopic Alignment of Liquid-Crystalline Lanthanide Complexes
title_short Magnetic Field-Induced Macroscopic Alignment of Liquid-Crystalline Lanthanide Complexes
title_full Magnetic Field-Induced Macroscopic Alignment of Liquid-Crystalline Lanthanide Complexes
title_fullStr Magnetic Field-Induced Macroscopic Alignment of Liquid-Crystalline Lanthanide Complexes
title_full_unstemmed Magnetic Field-Induced Macroscopic Alignment of Liquid-Crystalline Lanthanide Complexes
title_sort magnetic field-induced macroscopic alignment of liquid-crystalline lanthanide complexes
publisher MDPI AG
series Crystals
issn 2073-4352
publishDate 2019-09-01
description We propose a theoretical approach and a numerical method for determining the Frank elastic constants based on the experimental dependence of the effective values of the permittivity components on the magnetic field. The theoretical task was to find the minimum of the free energy and then to solve the inverse problem on finding elastic constants by the least squares root minimizing with experimental data. The proposed approach combines strong and weak models with various pretilt conditions at the boundaries. This model also describes the inhomogeneity of the electric field inside the sample. The proposed method allows to achieve higher accuracy using a small amount of experimental data. This statement is confirmed by the error estimation study, which is also presented in this research. As an experimental sample, we used the gadolinium-based liquid crystal complex, since there are no data on the Frank elastic constants for this complex.
topic liquid crystals
surface anchoring
lanthanidomesogens
direct minimization method
basin-hopping method
url https://www.mdpi.com/2073-4352/9/10/499
work_keys_str_mv AT elenaaksenova magneticfieldinducedmacroscopicalignmentofliquidcrystallinelanthanidecomplexes
AT liliyadobrun magneticfieldinducedmacroscopicalignmentofliquidcrystallinelanthanidecomplexes
AT alexanderkovshik magneticfieldinducedmacroscopicalignmentofliquidcrystallinelanthanidecomplexes
AT evgenyryumtsev magneticfieldinducedmacroscopicalignmentofliquidcrystallinelanthanidecomplexes
AT ivantambovtcev magneticfieldinducedmacroscopicalignmentofliquidcrystallinelanthanidecomplexes
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