1) Dielectric anisotropy
介电各向异性
1.
In this paper, the advantages of these compounds are summarized, showing that naphthalene derivative is useful for preparing a liquid crystal composition with a wide temperature range of nematic phase, very large dielectric anisotropy and a small birefringence, thereby being driven at a low voltage, and suitable for high performance STN.
大量文献数据表明其可加宽混合液晶的向列相温度范围;增大介电各向异性;降低阈值电压以及调节适宜的双折射率,适用于超扭曲向列型(STN型),薄膜晶体管型(TFT型)等高性能液晶材料。
2.
This paper has discussed the effect of the moleculer conjugate π-electrons on the dielectric anisotropy of liquid crystal materials.
本文详细讨论分子中共轭π电子对液晶材料介电各向异性的影响。
3.
The coupling effects of electric fields to dielectric tensor as well as the surface anchoring forces due to alignment layers are included in the model by equivalent current sources to make it has the capability in optical response prediction and dynamic analysis when dielectric anisotropy of FLC is of a relatively.
通过将介电张量与电场的耦合作用和由表面定向层引起的锚定能量以等效源的形式表达在电路模型中,成功地将模型拓展到介电各向异性情况下。
2) negative dielectric anisotropy
负介电各向异性
1.
New type of liquid crystals such as laterally fluorinated naphthalene indane,axially fluorinated cyclohexane and liquid crystal containing highly fluorinated substituent,which with high negative dielectric anisotropy、low viscosity and high clearing point were emphasized.
综述了VA-TFT(垂直取向薄膜晶体管驱动)用负介电各向异性液晶的结构及性质。
2.
Liquid crystal materials with negative dielectric anisotropy are widely used in LCD, such as DSECBGHFLCPDLCVA-TFTMDVA-TFT modes.
负介电各向异性 ( -△ε)液晶广泛应用于DS、ECB、GH、FLC、PDLC、VA -TFT、MDVA -TFT等模式的液晶显示中。
3.
The structures,properties and applications of laterally fluorinated negative dielectric anisotropy liquid crystal compounds are reviewed.
对环上氟取代负介电各向异性液晶的结构、性质和应用作了论述。
4) dielectric grating made with electromagnetic anisotropic materials
电磁各向异性介质光栅
5) anisotropic medium
各向异性介质
1.
FCT finite difference modeling of three-component seismic records in anisotropic medium;
各向异性介质中三分量地震记录的FCT有限差分模拟
2.
Experimental researckes on shear wave characteristics in anisotropic medium;
各向异性介质中横波特征的实验研究
3.
Study of parallel FDTD algorithm for anisotropic medium on a PC cluster system;
电各向异性介质FDTD并行算法的研究
6) Anisotropic media
各向异性介质
1.
Using the wavefront spreading method to solve the eikonal equation for anisotropic media;
波前扩展法求解各向异性介质的程函方程
2.
Numeric simulation of S-wave splitting and second splitting in layered anisotropic media;
层状各向异性介质中横波分裂和再分裂数值模拟
3.
Aiming at the reflection of artifical boundary when simulating the seismic prospecting, this paper gives the absorbing boundary conditions for anisotropic media.
针对地震波勘探数值模拟中遇到的人为边界反射问题,提出了适用各种各向异性介质的吸收边界条件,证明了其稳定性,在频率域推出了反射系数算法。
补充资料:各向同性和各向异性
物理性质可以在不同的方向进行测量。如果各个方向的测量结果是相同的,说明其物理性质与取向无关,就称为各向同性。如果物理性质和取向密切相关,不同取向的测量结果迥异,就称为各向异性。造成这种差别的内在因素是材料结构的对称性。在气体、液体或非晶态固体中,原子排列是混乱的,因而就各个方向而言,统计结果是等同的,所以其物理性质必然是各向同性的。而晶体中原子具有规则排列,结构上等同的方向只限于晶体对称性所决定的某些特定方向。所以一般而言,物理性质是各向异性的。例如, α-铁的磁化难易方向如图所示。铝的弹性模量E沿[111]最大(7700kgf/mm2),沿[100]最小(6400kgf/mm2)。对称性较低的晶体(如水晶、方解石)沿空间不同方向有不同的折射率。而非晶体(过冷液体),其折射率和弹性模量则是各向同性的。晶体的对称性很高时,某些物理性质(例如电导率等)会转变成各向同性。当物体是由许多位向紊乱无章的小单晶组成时,其表观物理性质是各向同性的。一般合金的强度就利用了这一点。倘若由于特殊加工使多晶体中的小单晶沿特定位向排列(例如金属的形变"织构"、定向生长的两相晶体混合物等),则虽然是多晶体其性能也会呈现各向异性。硅钢片就是这种性质的具体应用。
介于液体和固体之间的液晶,有的虽然分子的位置是无序的,但分子取向却是有序的。这样,它的物理性质也具有了各向异性。
介于液体和固体之间的液晶,有的虽然分子的位置是无序的,但分子取向却是有序的。这样,它的物理性质也具有了各向异性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条