Light diffraction of aligned polymer fibers periodically dispersed by phase separation of liquid crystal and polymer

Takeshi Murashige; Hideo Fujikake; Hiroto Sato; Hiroshi Kikuchi; Taiichiro Kurita; Fumio Sato

doi:10.1007/s10043-004-0349-z

Light diffraction of aligned polymer fibers periodically dispersed by phase separation of liquid crystal and polymer

Takeshi Murashige, Hideo Fujikake, Hiroto Sato, Hiroshi Kikuchi, Taiichiro Kurita, Fumio Sato

ENG - Electronic Engineering

Nippon Hoso Kyokai

Research output: Contribution to journal › Review article › peer-review

1 Citation (Scopus)

Abstract

We have confirmed light diffraction of aligned polymer fibers obtained by a phase separation of an anisotropic-phase solution of liquid crystal and polymer. He-Ne laser light passing through the polymer fibers was scattered in the axis vertical to the fibers, and had two peaks of light intensity symmetrical to the center of the transmitting laser spot. The two peaks were found to be caused by light diffraction due to the periodic polymer-fiber dispersion because the peaks corresponded to values calculated by intervals between the fibers. The periodical fiber networks are considered to be formed by anisotropic spinodal decomposition. This effect can be used to measure the dispersion order of the polymer fibers.

Original language	English
Pages (from-to)	349-352
Number of pages	4
Journal	Optical Review
Volume	11
Issue number	6
DOIs	https://doi.org/10.1007/s10043-004-0349-z
Publication status	Published - 2004 Dec

Keywords

Aligned polymer fiber
Light diffraction
Liquid crystal
Phase separation
Spinodal decomposition

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10.1007/s10043-004-0349-z

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title = "Light diffraction of aligned polymer fibers periodically dispersed by phase separation of liquid crystal and polymer",

abstract = "We have confirmed light diffraction of aligned polymer fibers obtained by a phase separation of an anisotropic-phase solution of liquid crystal and polymer. He-Ne laser light passing through the polymer fibers was scattered in the axis vertical to the fibers, and had two peaks of light intensity symmetrical to the center of the transmitting laser spot. The two peaks were found to be caused by light diffraction due to the periodic polymer-fiber dispersion because the peaks corresponded to values calculated by intervals between the fibers. The periodical fiber networks are considered to be formed by anisotropic spinodal decomposition. This effect can be used to measure the dispersion order of the polymer fibers.",

keywords = "Aligned polymer fiber, Light diffraction, Liquid crystal, Phase separation, Spinodal decomposition",

author = "Takeshi Murashige and Hideo Fujikake and Hiroto Sato and Hiroshi Kikuchi and Taiichiro Kurita and Fumio Sato",

year = "2004",

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doi = "10.1007/s10043-004-0349-z",

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TY - JOUR

T1 - Light diffraction of aligned polymer fibers periodically dispersed by phase separation of liquid crystal and polymer

AU - Murashige, Takeshi

AU - Fujikake, Hideo

AU - Sato, Hiroto

AU - Kikuchi, Hiroshi

AU - Kurita, Taiichiro

AU - Sato, Fumio

PY - 2004/12

Y1 - 2004/12

N2 - We have confirmed light diffraction of aligned polymer fibers obtained by a phase separation of an anisotropic-phase solution of liquid crystal and polymer. He-Ne laser light passing through the polymer fibers was scattered in the axis vertical to the fibers, and had two peaks of light intensity symmetrical to the center of the transmitting laser spot. The two peaks were found to be caused by light diffraction due to the periodic polymer-fiber dispersion because the peaks corresponded to values calculated by intervals between the fibers. The periodical fiber networks are considered to be formed by anisotropic spinodal decomposition. This effect can be used to measure the dispersion order of the polymer fibers.

AB - We have confirmed light diffraction of aligned polymer fibers obtained by a phase separation of an anisotropic-phase solution of liquid crystal and polymer. He-Ne laser light passing through the polymer fibers was scattered in the axis vertical to the fibers, and had two peaks of light intensity symmetrical to the center of the transmitting laser spot. The two peaks were found to be caused by light diffraction due to the periodic polymer-fiber dispersion because the peaks corresponded to values calculated by intervals between the fibers. The periodical fiber networks are considered to be formed by anisotropic spinodal decomposition. This effect can be used to measure the dispersion order of the polymer fibers.

KW - Aligned polymer fiber

KW - Light diffraction

KW - Liquid crystal

KW - Phase separation

KW - Spinodal decomposition

UR - http://www.scopus.com/inward/record.url?scp=24944578004&partnerID=8YFLogxK

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U2 - 10.1007/s10043-004-0349-z

DO - 10.1007/s10043-004-0349-z

M3 - Review article

AN - SCOPUS:24944578004

SN - 1340-6000

VL - 11

SP - 349

EP - 352

JO - Optical Review

JF - Optical Review

IS - 6

ER -

Light diffraction of aligned polymer fibers periodically dispersed by phase separation of liquid crystal and polymer

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Keywords

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