One of the grand promises of van der Waals heterostructures, especially of the latest wave of twisted graphene systems, are novel phases of matter driven by electronic interactions. Correspondingly, the goal of this research project, placed in research area C of this SPP, is to enhance our knowledge about interaction effects in these systems in a two-fold approach. On the one hand, we want to explore the rich zoo of twisted van der Waals hetero-structures beyond the bi- and multi-layer graphene paradigm. This will be undertaken on the qualitative level of effective low-energy or few-band models obtained from density functional theory characterizations as input to unbiased methods for the study of electron-electron correlations. On the other hand, we extend our study to incorporate the entirety of the large moiré Brillouin zone, explicitly keeping a larger span of high-energy degrees of freedom in the description. This allows us to make predictions that cannot be found considering the bands near the Fermi level alone. This second approach, again fed with ab-initio input obtained by collaborating theory groups in this priority program, gives us a chance to develop quantitatively controlled results that are not potentially hampered by complicated strong-interaction effects that occur easily in studies restricted to the few lowest bands. Finally, we can also use this scheme for a controlled down-folding to effective few-band band models, including screening effects beyond the random phase approximation. The expected outcome of these studies includes phase diagrams for existing and novel hetero-structures, energy scales and relevant response functions for the interacting ground states found and information on tuning possibilities and material trends in these systems.

DFG Programme Priority Programmes

Subproject of SPP 2244:  2D Materials – Physics of van der Waals [hetero]structures (2DMP)