Comment on "Two-component density functional theory study of quantized muons in solids"

arXiv - PHYS - Atomic and Molecular Clusters Pub Date : 2023-09-06 DOI:arxiv-2309.03345

Mohammad Goli, Nahid Sadat Riyahi, Shant Shahbazian

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Abstract

In [Phys. Rev. B 107, 094433 (2023)], Deng et al. have proposed an electron-muon correlation functional within the context of the two-component density functional theory (TC-DFT) for crystals/molecules containing positively charged muons. In order to verify its performance, we applied the functional in conjunction with the B3LYP, as a hybrid electronic exchange-correlation functional, to a benchmark set of molecules. The results demonstrate that the proposed functional is not capable of reproducing the correct one-muon densities as well as some other key properties like muon's kinetic energy, the total energies and the mean muonic bond lengths. Using the muonium atom in a double-harmonic trap as a model we also demonstrate that the successful reproduction of the electron-muon contact hyperfine coupling constants by Deng et al. is probably the result of error cancellations. We also discuss some theoretical intricacies with the very definition of the electron-muon correlation energy within the context of the TC-DFT that must be taken into account in future efforts to design electron-muon correlation functionals.

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评《固体中量子化μ子的双分量密度泛函理论研究》

(理论物理。[j]，邓等人在双组分密度泛函理论(TC-DFT)的背景下，提出了含有正电荷μ子的晶体/分子的电子- μ子相关泛函。为了验证其性能，我们将与B3LYP结合的泛函作为混合电子交换相关泛函应用于一组基准分子。结果表明，所提出的函数不能再现正确的单μ子密度以及其他一些关键性质，如μ子动能、总能量和平均μ子键长。以双谐波阱中的介子原子为模型，我们还证明了Denget等人成功再现电子-介子接触超精细耦合常数可能是误差抵消的结果。我们还讨论了在TC-DFT背景下电子-介子相关能定义的一些理论复杂性，这些复杂性在未来设计电子-介子相关泛函时必须考虑到。

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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arXiv - PHYS - Atomic and Molecular Clusters

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