The influence of the simulation box geometry in solid-state molecular simulations: Phase behaviour of lithium iodide in a dynamic Monte Carlo simulation

Wittich B.; Deiters U.K.

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The influence of the simulation box geometry in solid-state molecular simulations: Phase behaviour of lithium iodide in a dynamic Monte Carlo simulation

机译：模拟盒几何形状在固态分子模拟中的影响：碘化锂在动态蒙特卡洛模拟中的相态

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In thermodynamic computer simulations, it is common to use cubic simulation boxes, which are then regarded as unit cells of an infinitely large cubic lattice. While this approach is adequate for gases and liquids at low densities, for dense liquids and solid cuboid boxes forming an orthorhombic lattice or parallelepiped boxes forming a triclinic lattice are shown to be advantageous, because they do not predetermine the structure of the simulated system. In this work, an extension of the Ewald summation formalism towards a parallelepiped lattice symmetry is given. Monte Carlo simulations of lithium iodide with cubic, cuboid and parallelepiped box geometries are reported; the latter is found to offer little improvement over the cuboid geometry. The existence of two hexagonal solid phases is discussed.

机译：在热力学计算机模拟中，通常使用三次模拟框，然后将其视为无限大的三次晶格的晶胞。尽管此方法适用于低密度的气体和液体，但对于形成正交斜晶格的稠密液体和固体长方体盒或形成三斜晶格的平行六面体盒，它们显示出优势，因为它们无法确定模拟系统的结构。在这项工作中，给出了Ewald求和形式论向平行六面体晶格对称性的扩展。报道了具有立方体，长方体和平行六面体盒几何形状的碘化锂的蒙特卡洛模拟;发现后者对长方体的几何形状几乎没有改善。讨论了两个六角形固相的存在。

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《Molecular simulation》 |2010年第6期|共9页
作者
Wittich B.; Deiters U.K.;
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正文语种 eng
中图分类分子生物学;
关键词
Box shape; Dynamic NPT; Lithium iodide; Phase behaviour;

机译：箱形动态NPT碘化锂相行为;

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The influence of the simulation box geometry in solid-state molecular simulations: Phase behaviour of lithium iodide in a dynamic Monte Carlo simulation

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