Jahn–Teller Distortion Versus Spin–Orbit Splitting: Symmetry of Small Heavy-Metal Atom Clusters

Alexander Baldes; Rebekka Gulde; Florian Weigend

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Jahn–Teller Distortion Versus Spin–Orbit Splitting: Symmetry of Small Heavy-Metal Atom Clusters

机译：贾恩-泰勒畸变与自旋轨道分裂：小型重金属原子团簇的对称性

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Metal clusters often show slight deviations from high molecular point group symmetry. The reason for this is a Jahn–Teller distortion because of partial occupation of orbitals that are degenerate in the highly symmetric case. For heavy elements spin–orbit coupling, which usually is not regarded in quantum chemical treatments of clusters, becomes non-negligible. This leads to splitting of degenerate orbitals, so that the reason for distortion is no longer given. In a rigorous study of neutral, cationic and anionic 4–6 atomic clusters of W, Re, Tl and Pb it is demonstrated that in some cases regarding spin–orbit coupling indeed yields a highly symmetric global minimum structure, whereas neglecting this effect leads to distorted structures of lower symmetry.

机译：金属簇通常显示出与高分子点群对称性略有偏离。其原因是由于在高度对称的情况下退化的部分轨道占据而造成的Jahn-Teller畸变。对于重元素，自旋-轨道耦合（在簇的量子化学处理中通常不予考虑）变得不可忽略。这导致简并轨道的分裂，从而不再给出失真的原因。在对W，Re，Tl和Pb的中性，阳离子和阴离子4-6原子簇的严格研究中，证明了在某些情况下，关于自旋-轨道耦合确实产生了高度对称的全局最小结构，而忽略这种影响会导致较低对称性的扭曲结构。

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《Journal of Cluster Science 》 |2011年第3期| p.355-363| 共9页
作者
Alexander Baldes; Rebekka Gulde; Florian Weigend;
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1. Jahn-Teller Distortion Versus Spin-Orbit Splitting: Symmetry of Small Heavy-Metal Atom Clusters [J] . Baldes A., Gulde R., Weigend F. Journal of cluster science . 2011 ,第3期

机译：Jahn-Teller畸变与自旋轨道分裂：小型重金属原子团簇的对称性。
2. COEXISTENCE OF JAHN-TELLER DISTORTIONS IN AN O-H SYMMETRY - A GENERAL VIEW INCLUDING THE SPIN-ORBIT INTERACTION [J] . Bacci M., Polak K., Mihokova E. Physical Review, B. Condensed Matter . 1997 ,第21期

机译：O-H对称中JANN-泰勒畸变的共存-包括自旋轨道相互作用的一般视图
3. Hamiltonian formalism of spin-orbit Jahn-Teller and pseudo-Jahn-Teller problems in trigonal and tetragonal symmetries [J] . Wang Kun, Zeng Tao Physical chemistry chemical physics: PCCP . 2019 ,第35期

机译：Hamiltonian的旋转轨道jahn-teller和伪jahn-teller问题中的三角形和四方对称的伪
4. Understanding the Jahn-Teller distortions for the divacancy and the vacancy-group-V-atom pair in silicon [C] . G.D. Watkins International Conference on Defects in Semiconductors . 2006

机译：了解硅中的jahn-theller扭曲和硅中空位 - V-atom对的扭曲
5. A ONE-MODE INTERMEDIATE-COUPLING JAHN-TELLER CALCULATION FOR AN ORBITAL DOUBLET IN CUBIC SYMMETRY. [D] . HOFFMAN, JOHN RUSSELL. 1983

机译：立方对称轨道双轴的单模中间耦合詹恩-泰勒计算。
6. Direct Spectroscopic Observation of Large Quenching of First Order Orbital Angular Momentum with Bending in Monomeric Two-Coordinate Fe(II) Primary Amido Complexes and the Profound Magnetic Effects of the Absence of Jahn- and Renner-Teller Distortions in Rigorously Linear Coordination [O] . W. Alexander Merrill, Troy A. Stich, Marcin Brynda, -1

机译：与弯曲的单体一阶轨道角动量的大型淬火的直接观察光谱双坐标的Fe（II）主酰氨基复合物并经过严格的线性协调Jahn-和雷纳 - 泰勒扭曲的缺失的深刻磁效应
7. Hamiltonian formalism of spin–orbit Jahn–Teller and pseudo-Jahn–Teller problems in trigonal and tetragonal symmetries [O] . Kun Wang, Tao Zeng 2019

机译：Hamiltonian的旋转轨道jahn-teller和伪jahn-teller问题中的三角形和四方对称的伪
8. Many-Body Perturbation Theory Electronic Structure Calculations for the Methoxy Radical. I. Determination of Jahn-Teller Energy Surfaces, Spin-Orbit Splitting, and Zeeman Effect [R] . Bent, G. D., Adams, G. F., Bartram, R. H., 1981

机译：甲氧自由基的多体扰动理论电子结构计算。 I. Jahn-Teller能量表面的确定，自旋轨道分裂和塞曼效应

Jahn–Teller Distortion Versus Spin–Orbit Splitting: Symmetry of Small Heavy-Metal Atom Clusters

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