Dynamic mass generation on two-dimensional electronic hyperbolic lattices
read the original abstract
Free electrons hopping on hyperbolic lattices embedded on a negatively curved space can foster (a) Dirac liquids, (b) Fermi liquids, and (c) flat bands, respectively characterized by a vanishing, constant, and divergent density of states near the half filling. From numerical self-consistent mean-field Hartree analyses, we show that nearest-neighbor Coulomb and on-site Hubbard repulsions respectively give rise to charge-density-wave and antiferromagnetic orders featuring staggered patterns of average electronic density and magnetization in all these systems, when the hyperbolic tessellation is accomplished by periodic arrangements of even $p$-gons. Both quantum orders dynamically open mass gaps near the charge neutrality point via spontaneous symmetry breaking. Only on hyperbolic Dirac materials these orderings take place via quantum phase transitions (QPTs) beyond critical interactions, which however decrease with increasing curvature, showcasing curvature-induced weak-coupling QPTs. We present scaling of these masses with the corresponding interaction strengths.
This paper has not been read by Pith yet.
Forward citations
Cited by 1 Pith paper
-
Non-Hermitian catalysis of spontaneous symmetry breaking on Euclidean and hyperbolic lattices
Non-Hermiticity in hopping amplitudes catalyzes spontaneous symmetry breaking into CDW and SDW orders at weaker interactions on Euclidean and hyperbolic lattices while preserving DOS scaling near zero energy.
discussion (0)
Sign in with ORCID, Apple, or X to comment. Anyone can read and Pith papers without signing in.