多点相关函数的解析续集

IF 2.2 4区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY

Annalen der Physik Pub Date : 2024-05-01 DOI:10.1002/andp.202300504

Anxiang Ge, Johannes Halbinger, Seung-Sup B. Lee, Jan von Delft, Fabian B. Kugler

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引用次数: 0

摘要

从概念上讲，使用虚频的松原形式主义（MF）和使用实频的凯尔迪什形式主义（KF）对热平衡系统给出了等效的结果。MF 的复杂性较低，因此比 KF 更方便。然而，在 MF 中计算动态观测值需要从虚频到实频的解析延续。对于两点相关函数（只有一个频率参数）来说，解析延续是众所周知的，但对于多点相关器来说，从 MF 相关器中推导出所有凯尔迪什分量的直截了当的方法尚未制定出来。最近，Kugler、Lee 和 von Delft 引入了一种与形式无关的偏谱函数和形式特定核的 MF 和 KF 相关器表示法[Phys. Rev. X 11, 041006 (2021)]。这种表示法被用来正式阐明两种形式主义之间的联系。图中展示了如何通过分析延续多点中频相关器来恢复所有部分谱函数，并产生其 KF 对应部分的所有凯尔迪什分量。该过程针对哈伯德原子的各种相关器进行了说明。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Analytic Continuation of Multipoint Correlation Functions

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Analytic Continuation of Multipoint Correlation Functions

Conceptually, the Matsubara formalism (MF), using imaginary frequencies, and the Keldysh formalism (KF), formulated in real frequencies, give equivalent results for systems in thermal equilibrium. The MF has less complexity and is thus more convenient than the KF. However, computing dynamical observables in the MF requires the analytic continuation from imaginary to real frequencies. The analytic continuation is well-known for two-point correlation functions (having one frequency argument), but, for multipoint correlators, a straightforward recipe for deducing all Keldysh components from the MF correlator had not been formulated yet. Recently, a representation of MF and KF correlators in terms of formalism-independent partial spectral functions and formalism-specific kernels was introduced by Kugler, Lee, and von Delft [Phys. Rev. X 11, 041006 (2021)]. This representation is used to formally elucidate the connection between both formalisms. How a multipoint MF correlator can be analytically continued to recover all partial spectral functions and yield all Keldysh components of its KF counterpart is shown. The procedure is illustrated for various correlators of the Hubbard atom.

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来源期刊

Annalen der Physik 物理-物理：综合

CiteScore

4.50

自引率

8.30%

发文量

202

审稿时长

3 months

期刊介绍： Annalen der Physik (AdP) is one of the world''s most renowned physics journals with an over 225 years'' tradition of excellence. Based on the fame of seminal papers by Einstein, Planck and many others, the journal is now tuned towards today''s most exciting findings including the annual Nobel Lectures. AdP comprises all areas of physics, with particular emphasis on important, significant and highly relevant results. Topics range from fundamental research to forefront applications including dynamic and interdisciplinary fields. The journal covers theory, simulation and experiment, e.g., but not exclusively, in condensed matter, quantum physics, photonics, materials physics, high energy, gravitation and astrophysics. It welcomes Rapid Research Letters, Original Papers, Review and Feature Articles.