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Optical Fréedericksz transition and director field structure recording in dye-doped nematic liquid-crystalline polymer. / Budagovsky, Ivan; Kuznetsov, Aleksey; Shvetsov, Sergey и др.

в: Journal of Molecular Liquids, Том 276, 15.02.2019, стр. 275-281.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Budagovsky, I, Kuznetsov, A, Shvetsov, S, Smayev, M, Zolot'ko, A, Statsenko, P, Trashkeev, S, Bobrovsky, A, Boiko, N & Shibaev, V 2019, 'Optical Fréedericksz transition and director field structure recording in dye-doped nematic liquid-crystalline polymer', Journal of Molecular Liquids, Том. 276, стр. 275-281. https://doi.org/10.1016/j.molliq.2018.11.113

APA

Budagovsky, I., Kuznetsov, A., Shvetsov, S., Smayev, M., Zolot'ko, A., Statsenko, P., Trashkeev, S., Bobrovsky, A., Boiko, N., & Shibaev, V. (2019). Optical Fréedericksz transition and director field structure recording in dye-doped nematic liquid-crystalline polymer. Journal of Molecular Liquids, 276, 275-281. https://doi.org/10.1016/j.molliq.2018.11.113

Vancouver

Budagovsky I, Kuznetsov A, Shvetsov S, Smayev M, Zolot'ko A, Statsenko P и др. Optical Fréedericksz transition and director field structure recording in dye-doped nematic liquid-crystalline polymer. Journal of Molecular Liquids. 2019 февр. 15;276:275-281. doi: 10.1016/j.molliq.2018.11.113

Author

Budagovsky, Ivan ; Kuznetsov, Aleksey ; Shvetsov, Sergey и др. / Optical Fréedericksz transition and director field structure recording in dye-doped nematic liquid-crystalline polymer. в: Journal of Molecular Liquids. 2019 ; Том 276. стр. 275-281.

BibTeX

@article{46cefd093eb3457683b7051437cc05f2,
title = "Optical Fr{\'e}edericksz transition and director field structure recording in dye-doped nematic liquid-crystalline polymer",
abstract = "Dye-doped nematic liquid-crystalline polymers exhibit much higher orientational optical response than the systems based on low-molar-mass liquid crystals. In addition, polymer materials possess the glassy state, which allows one to record their supramolecular structure. We study the effect of light field inhomogeneity on the director deformation in the geometry of Fr{\'e}edericksz transition and recording of corresponding phase structures. The relationship of the light beam width with the threshold light intensity and the size of the induced and recorded deformation region was determined. An influence of the beam waist radius on the polymer director relaxation time was detected. The results of numerical calculations based on the continuum theory and the independence of the enhancement factor of the optical torque on light–polymer interaction geometry agree with the experimental data.",
keywords = "Fr{\'e}edericksz transition, Liquid-crystalline polymer, Optical nonlinearity, Optical recording, Supramolecular structure, BEAM, PHASE, LASER-INDUCED REORIENTATION, LIGHT-INDUCED ORIENTATION, Freedericksz transition, MOLECULAR-REORIENTATION, DEPENDENCE",
author = "Ivan Budagovsky and Aleksey Kuznetsov and Sergey Shvetsov and Mikhail Smayev and Alexander Zolot'ko and Pavel Statsenko and Sergey Trashkeev and Alexey Bobrovsky and Natalia Boiko and Valery Shibaev",
year = "2019",
month = feb,
day = "15",
doi = "10.1016/j.molliq.2018.11.113",
language = "English",
volume = "276",
pages = "275--281",
journal = "Journal of Molecular Liquids",
issn = "0167-7322",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Optical Fréedericksz transition and director field structure recording in dye-doped nematic liquid-crystalline polymer

AU - Budagovsky, Ivan

AU - Kuznetsov, Aleksey

AU - Shvetsov, Sergey

AU - Smayev, Mikhail

AU - Zolot'ko, Alexander

AU - Statsenko, Pavel

AU - Trashkeev, Sergey

AU - Bobrovsky, Alexey

AU - Boiko, Natalia

AU - Shibaev, Valery

PY - 2019/2/15

Y1 - 2019/2/15

N2 - Dye-doped nematic liquid-crystalline polymers exhibit much higher orientational optical response than the systems based on low-molar-mass liquid crystals. In addition, polymer materials possess the glassy state, which allows one to record their supramolecular structure. We study the effect of light field inhomogeneity on the director deformation in the geometry of Fréedericksz transition and recording of corresponding phase structures. The relationship of the light beam width with the threshold light intensity and the size of the induced and recorded deformation region was determined. An influence of the beam waist radius on the polymer director relaxation time was detected. The results of numerical calculations based on the continuum theory and the independence of the enhancement factor of the optical torque on light–polymer interaction geometry agree with the experimental data.

AB - Dye-doped nematic liquid-crystalline polymers exhibit much higher orientational optical response than the systems based on low-molar-mass liquid crystals. In addition, polymer materials possess the glassy state, which allows one to record their supramolecular structure. We study the effect of light field inhomogeneity on the director deformation in the geometry of Fréedericksz transition and recording of corresponding phase structures. The relationship of the light beam width with the threshold light intensity and the size of the induced and recorded deformation region was determined. An influence of the beam waist radius on the polymer director relaxation time was detected. The results of numerical calculations based on the continuum theory and the independence of the enhancement factor of the optical torque on light–polymer interaction geometry agree with the experimental data.

KW - Fréedericksz transition

KW - Liquid-crystalline polymer

KW - Optical nonlinearity

KW - Optical recording

KW - Supramolecular structure

KW - BEAM

KW - PHASE

KW - LASER-INDUCED REORIENTATION

KW - LIGHT-INDUCED ORIENTATION

KW - Freedericksz transition

KW - MOLECULAR-REORIENTATION

KW - DEPENDENCE

UR - http://www.scopus.com/inward/record.url?scp=85057615768&partnerID=8YFLogxK

U2 - 10.1016/j.molliq.2018.11.113

DO - 10.1016/j.molliq.2018.11.113

M3 - Article

AN - SCOPUS:85057615768

VL - 276

SP - 275

EP - 281

JO - Journal of Molecular Liquids

JF - Journal of Molecular Liquids

SN - 0167-7322

ER -

ID: 17686855