Two-particle correlation functions for the theoretical description of strongly correlated electrons systems

MPSD Seminar

  • Datum: 15.10.2019
  • Uhrzeit: 11:00 - 12:00
  • Vortragende(r): Georg Rohringer
  • University of Hamburg
  • Ort: CFEL (Bldg. 99)
  • Raum: Seminar Room I, EG.076
  • Gastgeber: Michael Sentef
Two-particle correlation functions for the theoretical description of strongly correlated electrons systems
Green's functions represent one of the most useful tools for the theoretical description of correlated lattice electrons. In particular, the one-particle Green's function contains information about the spectral properties of the system and can be directly compared to (angular resolved) photoemission spectroscopy experiments. However, also two-particle correlations functions provide very interesting insights into the properties of correlated electron systems as they contain crucial information on response functions such as the magnetic susceptibility or the optical conductivity. In my talk, I will present an overview about the physical content as well as the applications of two-particle Green's and vertex functions in frontier condensed matter research. In particular, I will demonstrate how local frequency-dependent vertices can be used to include non-local correlations effects in interacting many-electron systems on top of the local ones of dynamical mean-field theory (DMFT). While these so-called diagrammatic extensions [1] of DMFT have been successfully exploited to describe collective phenomena such as magnetism and superconductivity, their predictive power is still limited by specific inconsistencies between the one- and the two-particle level [2]. In the final part of my talk, I will present possible solutions to these problems [3] which I will address in the framework of my Emmy Noether project at the University of Hamburg.

[1] G. Rohringer et al., Rev. Mod. Phys. 90, 025003 (2018)
[2] E. G. C. P. van Loon et al., Phys. Rev. B 93, 155162 (2016)
[3] G. Rohringer, and A. Toschi, Phys. Rev. B 94, 125144 (2016)

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