Morphology effect on the light scattering and dynamic response of polymer network liquid crystal phase modulator

Zhao, Xiangjie; Liu, Cangli; Duan, Jiazhu; Jiancheng, Zeng; Zhang, Dayong; Luo, Yongquan

doi:10.1364/oe.22.014757

Cited by 9 publications

(2 citation statements)

References 19 publications

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“…Previous studies have reported that THz wave phase shifters using LC have either a tiny phase change 17) or a excessively long decay time due to the thick LC layer of several hundreds of micrometers or more. [18][19][20][21] As effective methods for improving the decay time, polymerstabilized LC (PSLC) [22][23][24][25][26][27][28][29][30] and nanofiber (NF)/LC composite 31,32) have been employed. In the PSLC, reactive bifunctional monomers with a small amount (<10 wt%) are mixed into the LC and crosslinked to each other after polymerization.…”

Section: Introductionmentioning

confidence: 99%

“…33) However, previous studies have reported that the PSLC threshold voltage rises by several tens of volts, even in the thickness of only a few tens of micrometers. 25,26,29) In another example for a device at THz frequency, where the decay time was significantly shortened to a few tens of milliseconds, an enormous voltage of approximately 900 V was employed to obtain a phase change of 30°. At that time, the composite showed 55% of the natural ability in the THz birefringence of LC.…”

Section: Introductionmentioning

confidence: 99%

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Optimization of the electrospun-aligned microfiber composite with liquid crystal for terahertz wave variable phase shifters

Lang

INOUE

MORITAKE

2022

Jpn. J. Appl. Phys.

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In this study, electrospun microfibers (MFs) were produced and used as key materials to optimize the composite with liquid crystal (LC) for terahertz (THz) wave phase shifters. These MFs, with an average diameter of 1.4 μm, were produced using the polymer solution concentration of 14 wt% and spinning voltage of 13 kV. When MFs were combined with LC, the measured results of the electrical characteristics showed that 14 wt% MFs provided an outstanding solution to the problem of a significant reduction in the natural birefringence of pure LC. The birefringence in the THz frequency range of the composite using 14 wt% MFs approached 90% compared with that using pure LC. Additionally, the decay time drastically shortened from hundreds of seconds for pure LC to hundreds of milliseconds for MF/LC composite and was independent of device thickness.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Optimization of the electrospun-aligned microfiber composite with liquid crystal for terahertz wave variable phase shifters

Lang

INOUE

MORITAKE

2022

Jpn. J. Appl. Phys.

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A Two‐Stage Polymerization Strategy for Preparing Polymer‐Network Liquid Crystals with Oxygen‐Sensing Property

Liu,

Zhang,

Zhang

et al. 2024

Advanced Photonics Research

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Polymer‐network liquid crystal (PNLC) possesses both advantages of low‐molecular‐weight liquid crystal (LMWLC) and liquid crystal (LC) polymer. Herein, a two‐stage polymerization strategy for the formation of unique PNLC with oxygen‐sensing properties is reported. The reaction mixture consists of 6% diacrylate RM257, 93.5% LMWLC 4‐cyano‐4′‐pentylbiphenyl (5CB), and 0.5% photoinitiator dimethoxy‐2‐phenylacetophenone (DMPA). In the first stage, the mixture is exposed to UV light for 2 min to form a primary polymer network, which is highly uniform with a planar orientation. However, some free radicals are trapped inside the LC due to the short UV exposure time. Subsequently, the trapped free radicals are released by heating the PNLC sample into an isotropic state. Under this condition, the free radicals can move freely and react with surrounding monomers to form a secondary polymer network, which is highly disordered and scatters light strongly. Because oxygen can deactivate free radicals trapped inside the PNLC, the phenomenon to detect oxygen and monitor the diffusion of oxygen through the PNLC is exploited. The PNLC‐based oxygen sensor is potentially useful for the detection of oxygen and monitoring the exposure time to oxygen.

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Characterization of submillisecond response optical addressing phase modulator based on low light scattering polymer network liquid crystal

Zhao

Liu

Duan

et al. 2015

Journal of Applied Physics

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Optically addressed conventional nematic liquid crystal spatial light modulator has attracted wide research interests. But the slow response speed limited its further application. In this paper, polymer network liquid crystal (PNLC) was proposed to replace the conventional nematic liquid crystal to enhance the response time to the order of submillisecond. The maximum light scattering of the employed PNLC was suppressed to be less than 2% at 1.064 μm by optimizing polymerization conditions and selecting large viscosity liquid crystal as solvent. The occurrence of phase ripple phenomenon due to electron diffusion and drift in photoconductor was found to deteriorate the phase modulation effect of the optical addressed PNLC phase modulator. The wavelength effect and AC voltage frequency effect on the on state dynamic response of phase change was investigated by experimental methods. These effects were interpreted by electron diffusion and drift theory based on the assumption that free electron was inhomogeneously distributed in accordance with the writing beam intensity distribution along the incident direction. The experimental results indicated that the phase ripple could be suppressed by optimizing the wavelength of the writing beam and the driving AC voltage frequency when varying the writing beam intensity to generate phase change in 2π range. The modulation transfer function was also measured.

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Morphology effect on the light scattering and dynamic response of polymer network liquid crystal phase modulator

Cited by 9 publications

References 19 publications

Optimization of the electrospun-aligned microfiber composite with liquid crystal for terahertz wave variable phase shifters

Optimization of the electrospun-aligned microfiber composite with liquid crystal for terahertz wave variable phase shifters

A Two‐Stage Polymerization Strategy for Preparing Polymer‐Network Liquid Crystals with Oxygen‐Sensing Property

Characterization of submillisecond response optical addressing phase modulator based on low light scattering polymer network liquid crystal

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