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引用次数: 0
摘要
我们回顾了有关网络材料灵活性的一系列观点,网络材料的广义定义是由原子组成的小多面体单元在角上连接的结构。一个明显的例子是二氧化硅多晶体家族,其结构由角连接的 SiO4 四面体组成。刚性单元模式(RUM)被定义为结构多面体可以在不变形的情况下平移和/或旋转的任何法向模式,由于与改变多面体的大小和形状相关的力要比两个多面体围绕一个共享顶点旋转相关的力大得多,因此与所有其他声子模式相比,RUM 的频率可能较低。在本文中,我们将讨论网络结构的灵活性,以及 RUM 如何在这种结构中产生,包括原理和实际系统中的一些具体实例。我们还讨论了 RUM 模型的应用,尤其是在理解网络材料中的位移相变和负热膨胀等现象方面。
The rigid unit mode model: review of ideas and applications.
We review a set of ideas concerning the flexibility of network materials, broadly defined as structures in which atoms form small polyhedral units that are connected at corners. One clear example is represented by the family of silica polymorphs, with structures composed of corner-linked SiO4tetrahedra. The rigid unit mode (RUM) is defined as any normal mode in which the structural polyhedra can translate and/or rotate without distortion, and since forces associated with changing the size and shape of the polyhedra are much stronger than those associated with rotations of two polyhedra around a shared vertex, the RUMs might be expected to have low frequencies compared to all other phonon modes. In this paper we discuss the flexibility of network structures, and how RUMs can arise in such structures, both in principle and in a number of specific examples of real systems. We also discuss applications of the RUM model, particularly for our understanding of phenomena such as displacive phase transitions and negative thermal expansion in network materials.
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