Many-body green function of degenerate systems

Christian Brouder; Gianluca Panati; Gabriel Stoltz

doi:10.1103/PhysRevLett.103.230401

Many-body green function of degenerate systems

Christian Brouder, Gianluca Panati, Gabriel Stoltz

Research output: Contribution to journal › Article › peer-review

Abstract

A rigorous nonperturbative adiabatic approximation of the evolution operator in the many-body physics of degenerate systems is derived. This approximation is used to solve the long-standing problem of the choice of the initial states of H0 leading to eigenstates of H0+V for degenerate systems. These initial states are eigenstates of P0VP0, where P0 is the projection onto a degenerate eigenspace of H0. This result is used to give the proper definition of the Green function, the statistical Green function and the nonequilibrium Green function of degenerate systems. The convergence of these Green functions is established.

Original language	English
Article number	230401
Journal	Physical Review Letters
Volume	103
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevLett.103.230401
Publication status	Published - 1 Dec 2009

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10.1103/PhysRevLett.103.230401

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title = "Many-body green function of degenerate systems",

abstract = "A rigorous nonperturbative adiabatic approximation of the evolution operator in the many-body physics of degenerate systems is derived. This approximation is used to solve the long-standing problem of the choice of the initial states of H0 leading to eigenstates of H0+V for degenerate systems. These initial states are eigenstates of P0VP0, where P0 is the projection onto a degenerate eigenspace of H0. This result is used to give the proper definition of the Green function, the statistical Green function and the nonequilibrium Green function of degenerate systems. The convergence of these Green functions is established.",

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AU - Stoltz, Gabriel

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N2 - A rigorous nonperturbative adiabatic approximation of the evolution operator in the many-body physics of degenerate systems is derived. This approximation is used to solve the long-standing problem of the choice of the initial states of H0 leading to eigenstates of H0+V for degenerate systems. These initial states are eigenstates of P0VP0, where P0 is the projection onto a degenerate eigenspace of H0. This result is used to give the proper definition of the Green function, the statistical Green function and the nonequilibrium Green function of degenerate systems. The convergence of these Green functions is established.

AB - A rigorous nonperturbative adiabatic approximation of the evolution operator in the many-body physics of degenerate systems is derived. This approximation is used to solve the long-standing problem of the choice of the initial states of H0 leading to eigenstates of H0+V for degenerate systems. These initial states are eigenstates of P0VP0, where P0 is the projection onto a degenerate eigenspace of H0. This result is used to give the proper definition of the Green function, the statistical Green function and the nonequilibrium Green function of degenerate systems. The convergence of these Green functions is established.

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DO - 10.1103/PhysRevLett.103.230401

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JO - Physical Review Letters

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Many-body green function of degenerate systems

Abstract

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