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TT: Fachverband Tiefe Temperaturen

TT 47: Poster Session Correlated Electrons 2

TT 47.22: Poster

Mittwoch, 18. März 2020, 15:00–19:00, P2/3OG

Energy Gap in Strongly Correlated Hubbard Clusters—Comparing Green Functions and DMRG — •Sönke Hese¹, Jan-Philip Joost¹, Niclas Schlünzen¹, Claudio Verdozzi², Peter Schmitteckert³, and Michael Bonitz¹ — ¹CAU Kiel, Germany — ²Lund University, Sweden — ³HQS Quantum Simulations, Germany

The (Fermi–)Hubbard model is a key system in the theory of strongly correlated electrons in solids. While the exact solution of the Hubbard Hamiltonian is known to possess a spin-symmetric ground state, in the mean-field approximation magnetic instabilities can, for on-site interactions beyond a critical U_c, induce the spontaneous breaking of spin symmetry leading to stable spin-density waves [1]. Using a Green function approach with higher order corrections to the self-energy, namely second Born and GW, we observe a similar effect at considerably larger interactions. Further, we find that similar inhomogeneous solutions are also present in spin-restricted calculations. By comparing to exact DMRG data for the 1D chain we find that these symmetry-broken states produce reliable data for the spectral function including the size of the Mott gap.
[1] J.-P. Joost, A.-P. Jauho, M. Bonitz, Nano Letters (2019), DOI:10.1021/acs.nanolett.9b04075