Neutron diffraction study of molecular motion in solid deuterium chloride

E. Sándor, R. Farrow
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引用次数: 21

Abstract

Mean square thermal displacements of the chlorine and deuterium atoms were derived both in the ordered orthorhombic and in the disordered cubic phase of deuterium chloride by a least-squares study of the neutron powder diffraction patterns recorded at four temperatures over the 4.2 to 111.5 K range. The atomic displacements were subsequently interpreted as due to the superposition of the internal stretching vibrations and of the rigid-body translational and angular vibrations of the molecules. The analysis of the results revealed substantial rigid-body vibrational components in the zero-point motion of the molecules and a rapid rise in the amplitude of the in-plane angular vibrations on approaching the transition point. It also showed a small but possibly significant lengthening of the CI—D bond as the temperature decreases. Finally, it gave a fuller understanding of the disordered cubic phase as a dynamic mixture of short-lived polymers of varying lengths and shapes.
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固体氯化氘分子运动的中子衍射研究
通过对在4.2 ~ 111.5 K范围内4种温度下记录的中子粉末衍射图的最小二乘研究,得到了氯原子和氘原子在有序正交相和无序立方相中的均方热位移。原子位移随后被解释为由于分子的内部拉伸振动和刚体平动振动和角振动的叠加。分析结果表明,在分子的零点运动中存在大量的刚体振动分量,并且在接近过渡点时,面内角振动的振幅迅速上升。它还显示,随着温度的降低,CI-D键的长度虽小,但可能是显著的。最后,它给出了一个更全面的理解无序立方相作为一个动态混合物的短寿命聚合物的不同长度和形状。
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