Self-consistent dual boson approach to single-particle and collective excitations in correlated systems

E. A. Stepanov; E. G.C.P. Van Loon; A. A. Katanin; A. I. Lichtenstein; M. I. Katsnelson; A. N. Rubtsov

doi:10.1103/PhysRevB.93.045107

Self-consistent dual boson approach to single-particle and collective excitations in correlated systems

E. A. Stepanov
, E. G.C.P. Van Loon
, A. A. Katanin
, A. I. Lichtenstein
, M. I. Katsnelson
, A. N. Rubtsov

Radboud University
Institute of Metal Physics
Ural Federal University
Universität Hamburg
National University of Science and Technology “MISIS”
Moscow State University

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We propose an efficient dual boson scheme, which extends the dynamical mean-field theory paradigm to collective excitations in correlated systems. The theory is fully self-consistent both on the one- and on the two-particle level, thus describing the formation of collective modes as well as the renormalization of electronic and bosonic spectra on equal footing. The method employs an effective impurity model comprising both fermionic and bosonic hybridization functions. Only single- and two-electron Green's functions of the reference problem enter the theory, due to the optimal choice of the self-consistency condition for the effective bosonic bath. We show that the theory is naturally described by a dual Luttinger-Ward functional and obeys the relevant conservation laws.

langue originale	Anglais
Numéro d'article	045107
journal	Physical Review B
Volume	93
Numéro de publication	4
Les DOIs	https://doi.org/10.1103/PhysRevB.93.045107
état	Publié - 8 janv. 2016
Modification externe	Oui

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10.1103/PhysRevB.93.045107

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title = "Self-consistent dual boson approach to single-particle and collective excitations in correlated systems",

abstract = "We propose an efficient dual boson scheme, which extends the dynamical mean-field theory paradigm to collective excitations in correlated systems. The theory is fully self-consistent both on the one- and on the two-particle level, thus describing the formation of collective modes as well as the renormalization of electronic and bosonic spectra on equal footing. The method employs an effective impurity model comprising both fermionic and bosonic hybridization functions. Only single- and two-electron Green's functions of the reference problem enter the theory, due to the optimal choice of the self-consistency condition for the effective bosonic bath. We show that the theory is naturally described by a dual Luttinger-Ward functional and obeys the relevant conservation laws.",

author = "Stepanov, \{E. A.\} and \{Van Loon\}, \{E. G.C.P.\} and Katanin, \{A. A.\} and Lichtenstein, \{A. I.\} and Katsnelson, \{M. I.\} and Rubtsov, \{A. N.\}",

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doi = "10.1103/PhysRevB.93.045107",

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AU - Stepanov, E. A.

AU - Van Loon, E. G.C.P.

AU - Katanin, A. A.

AU - Lichtenstein, A. I.

AU - Katsnelson, M. I.

AU - Rubtsov, A. N.

PY - 2016/1/8

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N2 - We propose an efficient dual boson scheme, which extends the dynamical mean-field theory paradigm to collective excitations in correlated systems. The theory is fully self-consistent both on the one- and on the two-particle level, thus describing the formation of collective modes as well as the renormalization of electronic and bosonic spectra on equal footing. The method employs an effective impurity model comprising both fermionic and bosonic hybridization functions. Only single- and two-electron Green's functions of the reference problem enter the theory, due to the optimal choice of the self-consistency condition for the effective bosonic bath. We show that the theory is naturally described by a dual Luttinger-Ward functional and obeys the relevant conservation laws.

AB - We propose an efficient dual boson scheme, which extends the dynamical mean-field theory paradigm to collective excitations in correlated systems. The theory is fully self-consistent both on the one- and on the two-particle level, thus describing the formation of collective modes as well as the renormalization of electronic and bosonic spectra on equal footing. The method employs an effective impurity model comprising both fermionic and bosonic hybridization functions. Only single- and two-electron Green's functions of the reference problem enter the theory, due to the optimal choice of the self-consistency condition for the effective bosonic bath. We show that the theory is naturally described by a dual Luttinger-Ward functional and obeys the relevant conservation laws.

U2 - 10.1103/PhysRevB.93.045107

DO - 10.1103/PhysRevB.93.045107

M3 - Article

AN - SCOPUS:84955441930

SN - 2469-9950

VL - 93

JO - Physical Review B

JF - Physical Review B

IS - 4

M1 - 045107

ER -

Self-consistent dual boson approach to single-particle and collective excitations in correlated systems

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