Quantum Dynamic Approach of B2N(∓,0) and N2B (∓,0) Clusters Study: A Symmetry Breaking due to the Jahn-Teller Effect

Majid Monajjemi
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Abstract

BN compounds play an important role in the preparation of hyper- thin films, that have received signifcant attention in products. In this article, we investigated the electronic structures of and. Triatomic NBN and BNB have recently been studied using various experimental and calculation approaches, and it is totally agreed that both of them are linear in their  ground electronic step. The six ions including B2N (-), B2N (+), B2N (0) , BN2 (-), BN2 (+) and BN2 (0) have been studied and been also compared with one another in terms of several basis sets and predication of the symmetry breaking (SB) subject. Artifactual SB with the v3 vibration is occurred in the trial wave functions of coupled-cluster level, even when Brueckner orbitals of all nitrogen and oxygen atoms are used. In the  of  and  molecules, the unpaired electrons are delocalized, while in the asymmetric, they are localized on either one of the B atoms or N atoms of  and  , respectively. Structures with (SB),, can be stronger by interaction to the . Hereby, the second-order Jahn-Teller effect allows the unpaired electron to localize on boron atom, rather than being delocalized. Finally, from a statistical thermodynamical analysis, we calculated the thermodynamically stabilities of those six ions.
B2N(∓,0) 和 N2B (∓,0) 簇的量子动力学方法研究:扬-泰勒效应导致的对称性破坏
BN 化合物在制备超薄膜中发挥着重要作用,在产品中受到了极大关注。本文研究了和的电子结构。近来,人们利用各种实验和计算方法对三原子 NBN 和 BNB 进行了研究,并一致认为它们的基态电子阶跃都是线性的。对包括 B2N (-)、B2N (+)、B2N (0)、BN2 (-)、BN2 (+) 和 BN2 (0) 在内的六种离子进行了研究,并在多个基集和对称性破缺(SB)主体的预测方面进行了相互比较。在耦合簇水平的试验波函数中,即使使用了所有氮原子和氧原子的布鲁克纳轨道,也会出现 v3 振动的假对称破缺。在 和 分子中,非配对电子是非定域的,而在非对称分子中,非配对电子分别定位于 和 的 B 原子或 N 原子之一上。因此,二阶贾恩-泰勒效应允许非配对电子定位于硼原子上,而不是分散在硼原子上。最后,通过统计热力学分析,我们计算出了这六种离子的热力学稳定性。
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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