Hyperbolic Spin Liquids
Abstract
Hyperbolic lattices present a unique opportunity to venture beyond the conventional paradigm of crystalline many-body physics and explore correlated phenomena in negatively curved space. As a theoretical benchmark for such investigations, we extend Kitaev's spin-1/2 honeycomb model to hyperbolic lattices and exploit their non-Euclidean space-group symmetries to solve the model exactly. We elucidate the ground-state phase diagram on the lattice and find a gapped spin liquid with Abelian anyons, a gapped chiral spin liquid with non-Abelian anyons and chiral edge states, and a Majorana metal whose finite low-energy density of states is dominated by non-Abelian Bloch states.
Keywords
Cite
@article{arxiv.2407.09601,
title = {Hyperbolic Spin Liquids},
author = {Patrick M. Lenggenhager and Santanu Dey and Tomáš Bzdušek and Joseph Maciejko},
journal= {arXiv preprint arXiv:2407.09601},
year = {2025}
}
Comments
6 pages (7 figures) + references + 32 pages of Supplemental Material (18 figures + 1 table); (v2) updated with accepted version