3C10 高分子安定化ネマティック液晶装荷マイクロストリップ線路型マイクロ波ミリ波移相器の応答時間の検討(液晶フォトニクス・光デバイス,口頭発表,2015年日本液晶学会討論会)

Translated title of the contribution: 3C10 Study on Response Time of Polymer Stabilized Nematic Liquid Crystal Loaded Microstrip Line Type Microwave and Milliwave Phase Shifter

ヴァン バオ ブイ, 樋口 博紀, 菊池 裕嗣, 井上 曜, 森武 洋

Research output: Contribution to journalArticle

Abstract

Nowadays liquid crystal materials have attracted considerable attention for realizing these electrically controllable microwave and milliwave components because they have a large dielectric anisotropy in the microwave and milliwave region. But liquid-crystal-loaded microwave and milliwave devices have one serious problem, that is, the response time when the driving voltage is removed, is very long as the order of 10 s, because the thickness of their liquid crystal layer is typically more than 50 μm. In this study, we discuss about using polymer stabilized nematic liquid crystals for improving the response time.
Original languageJapanese
Pages (from-to)_3C10-1_-_3C10-2
Journal日本液晶学会討論会講演予稿集
Volume2015
Issue number0
DOIs
Publication statusPublished - 2015

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liquid crystals
microwaves
polymers
anisotropy
electric potential

Cite this

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title = "3C10 高分子安定化ネマティック液晶装荷マイクロストリップ線路型マイクロ波ミリ波移相器の応答時間の検討(液晶フォトニクス・光デバイス,口頭発表,2015年日本液晶学会討論会)",
abstract = "Nowadays liquid crystal materials have attracted considerable attention for realizing these electrically controllable microwave and milliwave components because they have a large dielectric anisotropy in the microwave and milliwave region. But liquid-crystal-loaded microwave and milliwave devices have one serious problem, that is, the response time when the driving voltage is removed, is very long as the order of 10 s, because the thickness of their liquid crystal layer is typically more than 50 μm. In this study, we discuss about using polymer stabilized nematic liquid crystals for improving the response time.",
author = "ブイ, {ヴァン バオ} and 博紀 樋口 and 裕嗣 菊池 and 曜 井上 and 洋 森武",
year = "2015",
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AU - ブイ, ヴァン バオ

AU - 樋口, 博紀

AU - 菊池, 裕嗣

AU - 井上, 曜

AU - 森武, 洋

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AB - Nowadays liquid crystal materials have attracted considerable attention for realizing these electrically controllable microwave and milliwave components because they have a large dielectric anisotropy in the microwave and milliwave region. But liquid-crystal-loaded microwave and milliwave devices have one serious problem, that is, the response time when the driving voltage is removed, is very long as the order of 10 s, because the thickness of their liquid crystal layer is typically more than 50 μm. In this study, we discuss about using polymer stabilized nematic liquid crystals for improving the response time.

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