Spherical Container(球形容器)研究综述
Spherical Container 球形容器 - , through capillary nematization in narrow slits, but it can also introduce long-ranged disruptions of the nematic ordering field through (unavoidable) topological defects in spherical containers. [1] The variation in pressure was controlled by a pressure sensor on the inner wall of a spherical container, and the safety design was assessed theoretically. [2] For finiteness, the system is enclosed in a spherical container with randomly reflecting unstructured walls. [3] This is why we suggest here a theoretical model which gives mean FRET efficiency as a function of liposome radius (the model applies to any spherical container) and Förster radius to help the experimentalist to choose their experimental set-up. [4] The freezing experiment is performed at − 7 °C cooling bath temperature in a spherical container and reveals that the surfactants have a significant influence on the supercooling rate and freezing time. [5] To facilitate studies in this area, we present a systematic investigation on the motion of a Reiner–Rivlin fluid sphere(drop) contaminated with a monomolecular layer of surfactant film and dispersed in a spherical container having Newtonian fluid. [6] As optimization parameters, the geometric parameters of hyperspherical containers of recognition classes were considered, which were restored in the process of machine learning in the radial basis of the binary space of Hamming features. [7] The fin lengths correspond to the annulus fill volume margin of 75% taken on the inside wall of the spherical container. [8] During the 19th century, roasting was just like cooking the beans inside a spherical container that worked as an enhanced skillet. [9] Using analytical calculations and computer simulations of a long elastic filament confined to a spherical container, we show that the ground state is not a single spool as assumed hitherto, but an ordering mosaic of multiple homogeneously ordered domains. [10] There are also options for structure refinement, and modelling in a spherical container. [11] There are also options for structure refinement and modeling in a spherical container. [12] A visualization experiment is carried out to investigate the void-affected unconstrained melting process in a spherical container. [13],通过狭窄狭缝中的毛细管向列化,但它也可以通过球形容器中的(不可避免的)拓扑缺陷引入向列有序场的远程破坏。 [1] 压力的变化由球形容器内壁上的压力传感器控制,并从理论上评估了安全设计。 [2] 为了有限性,系统被封闭在一个球形容器中,该容器具有随机反射的非结构化壁。 [3] 这就是为什么我们在这里建议一个理论模型,该模型将平均 FRET 效率作为脂质体半径(该模型适用于任何球形容器)和 Förster 半径的函数,以帮助实验者选择他们的实验装置。 [4] 冷冻实验是在球形容器中的 - 7 °C 冷却浴温度下进行的,结果表明表面活性剂对过冷速率和冷冻时间有显着影响。 [5] 为了促进该领域的研究,我们对被表面活性剂膜单分子层污染并分散在具有牛顿流体的球形容器中的 Reiner-Rivlin 流体球(液滴)的运动进行了系统研究。 [6] 作为优化参数,考虑识别类的超球面容器的几何参数,这些参数在机器学习过程中在汉明特征的二进制空间的径向基上进行恢复。 [7] 翅片长度对应于球形容器内壁上 75% 的环形填充体积余量。 [8] 在 19 世纪,烘焙就像在一个球形容器中烹饪豆子,该容器用作增强型煎锅。 [9] 使用限制在球形容器中的长弹性细丝的分析计算和计算机模拟,我们表明基态不是迄今为止假设的单个线轴,而是多个均匀有序域的有序镶嵌。 [10] 还有用于结构细化和在球形容器中建模的选项。 [11] 还有用于在球形容器中进行结构细化和建模的选项。 [12] 进行可视化实验以研究球形容器中受空隙影响的无约束熔化过程。 [13]