1) nematic director alignment
向列相液晶指向矢准直
2) liquid crystal director
液晶指向矢
1.
The refractive indices and the phase delay of the liquid crystal cell in electric field was presented on the basis of calculation of the planar alignment nematic and the twisted nematic liquid crystal director distributions, through the comparison we found the planar alignment nematic liquid crystal was more applicability .
通过对平行排列及90°扭曲排列液晶指向矢的计算,得出液晶盒中相应的折射率、相位差与电压之间的关系图,两者经比较证明平行排列更具适用性,并在实验中观测到了平行排列液晶光栅衍射特性与电压的关系。
3) LC director
液晶指向矢
1.
We have derived equations based on light scattering caused by fluctuations[1] of nematic LC director to explain.
我们推导出基于向列相液晶指向矢涨落[1]引起光散射的理论公式,以解释我们的实验结果。
4) nematic liquid crystal
向列相液晶
1.
Studies of pulsation feature of the diffraction beam in a nematic liquid crystals;
向列相液晶中衍射光束脉冲现象的研究
2.
Phase transition in biaxial nematic liquid crystal;
双轴性向列相液晶的相变理论
3.
Influence of grating constant on response characteristics in nematic liquid crystals;
光栅常数对向列相液晶响应特性的影响
5) nematic liquid crystals
向列相液晶
1.
Observation of spatial solitons in nematic liquid crystals;
向列相液晶中空间光孤子的观测
2.
Interactions between strong nonlocal optical spatial solitons in nematic liquid crystals;
向列相液晶中强非局域空间光孤子的相互作用
3.
Anisotropic diffraction pattern formation from a nematic liquid crystals film induced by low-power linearly polarized beam
向列相液晶中弱光引致各向异性衍射图样的研究
6) biaxial nematic liquid crystal
双轴向列相液晶
1.
A general shape of biaxial nematic liquid crystal molecule was abstracted into three perpendicular rods.
将双轴向列相液晶的分子简化为3根互相垂直的长棒,利用棒与棒之间相互作用能的叠加,得到分子间的总相互作用能。
补充资料:矢列式(逻辑中的)
矢列式(逻辑中的)
sequent (in logic)
矢列式(逻辑中的)【田叫田t(inl嗜c);ce姗。双N匆] 形如Al,…,A.‘BI,…,Bln的表示式,其中A,,…,A.,B,,…,B用是公式.它可解释为:在假定A,,…,A,,之下,B,,…,B。中至少有一成立.矢列式箭矢左边的部分称为它的前项(antecedent),而右边部分称为它的后项(s‘ced-ent或cons叫uent).公式(A、%26…%26A。)夕(B,丫…VB,。)(注意空合取表示真,而空析取表示假)称为所给矢列式的公式象(fon刀ula川uge ofthes叫u-eni).r.E,M脚互撰【补注1某些学者(特别是其工作领域与构造逻辑有关的学者)把‘·矢列式”一词限于形如 A,,…,A。一B的表示式,即限于上述定义中,炸二1的特殊情形. 关于〔沁ntzen对矢列式演算(s叫uent calculus)的讨论,见C曰成z。形式系统(C吧爪zen fon刀als声-tem);矢列式演算(s叫uentcalculus)以及例如【AZ 1.
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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