Title:
Exploring excited eigenstates of many-body systems using the functional renormalization group
Author(s):
Klöckner, Christian; Kennes, Dante Marvin; Karrasch, Christoph
Year of publication:
2018
Available Date:
2019-01-24T11:21:45Z
Abstract:
We introduce approximate, functional renormalization group based schemes to obtain correlation functions in pure excited eigenstates of large fermionic many-body systems at arbitrary energies. The algorithms are thoroughly benchmarked and their strengths and shortcomings are documented using a one-dimensional interacting tight-binding chain as a prototypical testbed. We study two “toy applications” from the world of Luttinger liquid physics: the survival of power laws in lowly excited states as well as the spectral function of high-energy “block” excitations, which feature several single-particle Fermi edges.
Part of Identifier:
ISSN (print): 2469-9950 (Print)
ISSN (print): 2469-9969 (Online)
Keywords:
Electrical properties
Quantum thermodynamics
Strongly correlated systems
Functional renormalization group
Many-body techniques
DDC-Classification:
530 Physik
Publication Type:
Wissenschaftlicher Artikel
URL of the Original Publication:
DOI of the Original Publication:
Journaltitle:
Physical Review B
Copyright Publisher:
Copyright des Verlages
Department/institution:
Physik
