Quasi-boson approximation yields accurate correlation energy in the 2D electron gas

Tobias M. R. Wolf, Chunli Huang
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Abstract

We report the successful adaptation of the quasi-boson approximation, a technique traditionally employed in nuclear physics, to the analysis of the two-dimensional electron gas. We show that the correlation energy estimated from this approximation agrees closely with the results obtained from quantum Monte Carlo simulations. Our methodology comprehensively incorporates the exchange self-energy, direct scattering, and exchange scattering for a particle-hole pair excited out of the mean-field ground state within the equation-of-motion framework. The linearization of the equation of motion leads to a generalized random phase approximation (gRPA) eigenvalue equation whose spectrum indicates that the plasmon dispersion remains unaffected by exchange effects, while the particle-hole continuum experiences a marked upward shift due to the exchange self-energy. Using the gRPA excitation spectrum, we calculate the zero-point energy of the quasi-boson Hamiltonian, thereby approximating the correlation energy of the original Hamiltonian. This research highlights the potential and effectiveness of applying the quasi-boson approximation to the gRPA spectrum, a fundamental technique in nuclear physics, to extended condensed matter systems.

Abstract Image

准玻色子近似在二维电子气中产生精确的相关能
我们报告了准玻色子近似这一传统核物理技术在二维电子气体分析中的成功应用。我们的研究表明,根据这种近似方法估算出的相关能与量子蒙特卡罗模拟得到的结果非常吻合。我们的方法将粒子-空穴对从均场基态激发出来的交换自能、直接散射和交换散射全面纳入了运动方程框架。运动方程的线性化导致了广义随机相近似(gRPA)特征值方程,其频谱表明质子色散不受交换效应的影响,而粒子-空穴连续体则由于交换自能而发生明显的上移。利用 gRPA 激发光谱,我们计算出了准玻色子哈密顿的零点能,从而逼近了原始哈密顿的相关能。这项研究凸显了将准玻色子近似应用于 gRPA 谱的潜力和有效性,而 gRPA 谱是核物理中的一项基本技术,也适用于扩展的凝聚态系统。
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CiteScore
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