Light propagation in variable-refractive-index materials with liquid-crystal-infiltrated microcavities

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Light propagation in variable-refractive-index materials with liquid-crystal-infiltrated microcavities

机译：在具有液晶渗透微腔的可变折射率材料中的光传播

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A liquid-crystal-infiltrated microcavity structure is proposed as a variable-refractive-index material. It has the advantages over previously considered nanostructured materials of having a larger phase-angle change and lower driving voltage. Two-dimensional liquid-crystal director and finite-difference time-domain optical simulations are used to select liquid crystal material parameters and optimize the dimension of the microcavity structured material.

机译：提出了一种渗透液晶的微腔结构作为可变折射率材料。与先前考虑的纳米结构材料相比，其具有较大的相角变化和较低的驱动电压的优点。使用二维液晶指向矢和时域有限差分光学模拟来选择液晶材料参数并优化微腔结构材料的尺寸。

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《Journal of the Optical Society of America, A. Optics, image science, and vision》 |2003年第11期|共8页
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中图分类光学;
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入库时间 2022-08-19 04:57:40

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1. Light propagation in variable-refractive-index materials with liquid-crystal-infiltrated microcavities [J] . Journal of the Optical Society of America, A. Optics, image science, and vision . 2003,第11期

机译：在具有液晶渗透微腔的可变折射率材料中的光传播
2. 2D Material Microcavity Light Emitters: To Lase or Not to Lase? [J] . Lewis Reeves, Yue Wang, Thomas F. Krauss Advanced Optical Materials . 2018,第19期

机译：2D材料微腔发光体：要出租还是不出租？
3. A colour tunable microcavity by weak-to-strong coupling regime transition through a light-switchable material [J] . Gianluca Accorsi, Sonia Carallo, Marco Mazzeo, Chemical Communications . 2014,第9期

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4. Optical properties of microcavity structures using the organic light emitting materials [C] . Boo Young Jung, Nam Young Kim, Chang Hee Lee, MRS Meeting . 2001

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8. Revolutionary Smart Self Assembling Crystalline Colloidal Array Materials for Controlling IR Light Propagation [R] . Asher, S. A. 2000

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Light propagation in variable-refractive-index materials with liquid-crystal-infiltrated microcavities

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