Characteristics of Two-Electron Atoms Examined Using the Hartree-Fock Approximation Difficulties

Enass Hasan, S. Abood
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Abstract

The investigation examines the presence and properties of Holomorphic restricted Hartree–Fock (h-RHF) solutions within (2-electron) systems. Through the utilization of (algebraic geometry), the specific ways of solutions associated with n basis functions is formally determined as ½(3n-1), providing clear evidence that states are compulsory for all molecular configurations. A thorough analysis of the h-RHF states of HZ (STO-3G) subsequently highlights both the continuation of Holomorphic solutions amidst variations in geometry or atomic charges, and the emergence of complex h-RHF solutions at points of convergence. By employing "catastrophe theory", these theory converging ways are elaborated upon, certainly the effect of molecular symmetry. We have been two ways getting of result the h-RHF states of HHeH2+ and HHeH (STO-3G), explanation the structural similarity between systems featuring 2-electrons and 2-holes. Eventually, a realization is executed on the h-RHF states of "ethane" (STO-3G) by considering the π-electrons as a two–electron problem, and utilizing NOCI to select an intersection between the ground state energy "singlet and triplet" states at vertical structure. The utilization of the "4-h-RHF" and "4-h-UHF" levels has been employed like a fundamental for "NOCI" in order to detect a junction between "the lowest energy singlet and triplet states" occurring at a curvature "angle of 90◦". This is achieved by approaching the "π electrons" in ethylene as a 2-electron dilemma. Subsequently, this outcome is validated within the context of the basis set approximation through variance within the precise "STO-3G energies" calculated using FCIQMC, showcasing the ability of integrating "Holomorphic Hartree–Fock theory and NOCI".
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利用哈特里-福克近似困难检验双电子原子的特性
这项研究考察了(2 电子)系统中全形受限哈特里-福克(h-RHF)解的存在和性质。通过利用(代数几何),与 n 个基函数相关的解的具体方式被正式确定为 ½(3n-1),为所有分子构型都必须存在状态提供了明确的证据。随后,对 HZ (STO-3G) 的 h-RHF 状态进行的深入分析突出显示了全态解在几何或原子电荷变化中的持续性,以及在收敛点出现的复杂 h-RHF 解。通过运用 "灾难理论",这些理论收敛方式得到了详细阐述,当然还有分子对称性的影响。我们通过两种方法得出了 HHeH2+ 和 HHeH 的 h-RHF 状态(STO-3G),解释了以 2 电子和 2 孔为特征的系统之间的结构相似性。最后,通过将 π 电子视为双电子问题,并利用 NOCI 在垂直结构上选择基态能量 "单重态和三重态 "之间的交点,对 "乙烷"(STO-3G)的 h-RHF 状态进行了实现。利用 "4-h-RHF "和 "4-h-UHF "电平作为 "NOCI "的基础,以检测发生在曲率 "90◦角 "的 "最低能量单重态和三重态 "之间的交点。这是通过将乙烯中的 "π 电子 "作为 2 电子困境来实现的。随后,通过使用 FCIQMC 计算的精确 "STO-3G 能量 "的差异,在基集近似的背景下验证了这一结果,展示了 "全形哈特里-福克理论和 NOCI "的整合能力。
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