An over-approximation of entropy for elemental multiconfigurational ground state electronic structures

IF 4.2 Q2 QUANTUM SCIENCE & TECHNOLOGY
Miles F. Beaux
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引用次数: 0

Abstract

The ability to predict the chemical and physical properties of a material is directly related to the structure and interactions of its electrons. For materials comprised of f-block elements (the lanthanides and actinides found in the last two rows of the periodic table), the complexity of electronic structure has presented great difficulty in understanding, modeling, and predicting material properties. The complexity of multiconfigurational ground state electronic structures is illustrated herein by the combinatorics of electron permutations within individual and cumulative occupancy configurations. A non-integer orbital occupancy representation of multiconfigurational ground states is described for superposition mixing between multiple near-energy degenerate occupancy configurations and generalized in such a way that established ground states are returned by approximation for elements with less-complex electronic structures. By considering the occupancy configurations as statistical mechanics macrostates, and the permutations of electrons as statistical mechanics microstates within those macrostates, an over-approximation of entropy for multiconfigurational elemental ground state electronic structures has been calculated.
元素多重组态基态电子结构熵的过近似
预测材料化学和物理性质的能力与其电子的结构和相互作用直接相关。对于由f块元素(元素周期表最后两行中的镧系元素和锕系元素)组成的材料,电子结构的复杂性给理解、建模和预测材料性质带来了巨大困难。多组态基态电子结构的复杂性在本文中通过单个和累积占有组态内的电子排列的组合来说明。针对多个近能简并占据配置之间的叠加混合,描述了多配置基态的非整数轨道占据表示,并以这样一种方式进行了推广,即对于具有较不复杂电子结构的元素,通过近似返回已建立的基态。通过将占据组态视为统计力学宏观态,并将电子的排列视为这些宏观态中的统计力学微观态,计算了多组态元素基态电子结构的熵的过近似。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
9.90
自引率
0.00%
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0
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