An Overview of Basis Set Effects for Diatomic Boron Nitride Compounds (B2N(∓,0)): A Quantum Symmetry Breaking

Q2 Physics and Astronomy
M. Monajjemi, Fatemeh Mollaamin, Neda Samiei Soofi
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引用次数: 1

Abstract

The symmetry breaking (SB) of B2 not only exhibits an energy barrier for ionic or neutral forms dependent on various basis sets but it also exhibits a few SBs due to the asymmetry stretching and bending mode interactions. SB obeys the mechanical quantum theorem among discrete symmetries and their connection to the spin statistics in physical sciences. In this investigation, the unusual amount of energy barrier of SBs appeared upon the orbit–orbit coupling of BNB (both radical and ions) between transition states and the ground state. Our goal in this study is to understand the difference among the electromagnetic structures of the (B2N(∓,0)) variants due to effects of various basis sets and methods and also the quantum symmetry breaking phenomenon. In the D∞h point group of (B2N(∓,0)) variants, the unpaired electron is delocalized, while in the asymmetric C∞v point group, it is localized on either one of the B atoms. Structures with broken symmetry, C∞v, can be stable by interacting with the D∞h point group. In viewpoints of quantum chemistry, the second-order Jahn–Teller effect permits the unpaired electron to localize on boron atom, rather than being delocalized. In this study, we observed that the energy barrier of SB for BNB increases by post HF methods.
双原子氮化硼化合物(B2N(∓,0))的基集效应综述:量子对称性破缺
B2的对称破缺(SB)不仅表现出依赖于不同基集的离子或中性形态的能量势垒,而且由于不对称的拉伸和弯曲模式相互作用,它还表现出一些SBs。在物理科学中,离散对称性遵循力学量子定理及其与自旋统计的联系。在本研究中,在过渡态和基态之间的BNB(包括自由基和离子)的轨道-轨道耦合中,SBs的能量势垒出现了异常的量。我们在这项研究中的目标是了解由于各种基集和方法以及量子对称性破缺现象的影响而导致的(B2N(+,0))变异体的电磁结构之间的差异。在(B2N(+,0))变异体的D∞h点群中,未配对电子是离域的,而在不对称的C∞v点群中,它是定域在任意一个B原子上的。对称破缺C∞v的结构可以通过与D∞h点群相互作用而稳定。从量子化学的观点来看,二阶扬-泰勒效应允许未配对电子在硼原子上定域,而不是离域。在这项研究中,我们观察到通过HF后方法SB对BNB的能垒增加。
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
Quantum Reports
Quantum Reports Physics and Astronomy-Physics and Astronomy (miscellaneous)
CiteScore
3.30
自引率
0.00%
发文量
33
审稿时长
10 weeks
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