Nonperturbative Green's function technique for nonequilibrium steady state

Details Nonperturbative Green's function technique for nonequilibrium steady state Nonperturbative Green's function technique for nonequilibrium steady state

2009-08-10

arxiv.org/abs/0908.1345v2

Physics

Condensed Matter

Mesoscale and Nanoscale Physics

8 pages

Scientific paper

Nonperturbative dynamic theory has a particular advantage in studying the transport in a quantum impurity system in a steady state. Here, we develop a new approach for obtaining the retarded Green's function expressed in resolvent form. We use the Heisenberg picture to facilitate dynamic theory and propose a new systematic method of collecting the basis vectors spanning the Liouville space, which is the most crucial step in obtaining the resolvent Green's function. We obtain all the linearly independent basis vectors for studying the single-impurity Anderson models with one and two reservoirs. The latter is an appropriate model for studying the Kondo phenomenon in a steady state when a bias is applied. This is one of long standing subjects in theoretical condensed matter physics.

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