Towards numerically accurate many-body perturbation theory: Short-range correlation effects

Gulans Andris

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Towards numerically accurate many-body perturbation theory: Short-range correlation effects

机译：迈向数值精确的多体摄动理论：短程相关效应

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The example of the uniform electron gas is used for showing that the short-range electron correlation is difficult to handle numerically, while it noticeably contributes to the self-energy. Nonetheless, in condensed-matter applications studied with advanced methods, such as the GW and random-phase approximations, it is common to neglect contributions due to high-momentum (large q) transfers. Then, the short-range correlation is poorly described, which leads to inaccurate correlation energies and quasiparticle spectra. To circumvent this problem, an accurate extrapolation scheme is proposed. It is based on an analytical derivation for the uniform electron gas presented in this paper, and it provides an explanation why accurate GW quasiparticle spectra are easy to obtain for some compounds and very difficult for others. (C) 2014 AIP Publishing LLC.

机译：以均匀的电子气为例表明，短程电子相关性很难数字化处理，而明显地有助于自能量。但是，在使用先进方法（例如GW和随机相位近似）研究的凝聚态应用中，由于高动量（大q）传递而忽略贡献是很常见的。然后，对短程相关性的描述很差，从而导致相关能量和准粒子光谱不准确。为了解决这个问题，提出了一种精确的外推方案。它基于本文介绍的均匀电子气的分析推导，并提供了一个解释，为什么某些化合物容易获得准确的GW准粒子光谱，而另一些化合物却很难获得准确的GW准粒子光谱。（C）2014 AIP Publishing LLC。

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《The Journal of Chemical Physics》 |2014年第16期|共7页
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Gulans Andris;
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机译：迈向数值精确的多体摄动理论：短程相关效应
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Towards numerically accurate many-body perturbation theory: Short-range correlation effects

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