English

Geometry-induced Exceptional Point Detached from Fermi Arcs

Other Condensed Matter 2026-01-06 v1 Optics

Abstract

Exceptional points (EPs), ubiquitous non-Hermitian degeneracies, are central features in band structures where non-Hermitian Fermi arcs connect EPs and eigenvalue knots encircle them. Under open boundary conditions (OBCs), non-Hermitian skin effects enforce complex momenta and yield non-Bloch band structures, introducing EPs unique to OBCs whose origins depend on boundary-driven mechanisms. Here, we reveal both theoretically and experimentally that geometry itself can induce such non-Bloch EPs in a reciprocal non-Hermitian Lieb lattice supporting geometry-dependent skin effects. By analyzing non-Bloch band structures, we find that geometry-induced EPs correspond to saddle points rather than branch points. Branch points, even while carrying OBC eigenenergies, do not yield EPs but manifest as Whitney cusps, a characteristic type of geometric singularity, and Fermi arcs connecting them remain crucial in determining eigenvalue knots. Our measurements of these knots confirm that geometry-induced EPs are detached from the branch points of Fermi arcs, contrasting with their unified counterparts in Bloch systems. Our results establish geometry as an additional degree of freedom for engineering EP-based devices and reveal its fundamental role in shaping non-Bloch band structures.

Keywords

Cite

@article{arxiv.2601.01886,
  title  = {Geometry-induced Exceptional Point Detached from Fermi Arcs},
  author = {Yuancheng Zhao and Jia-Xin Zhong and Jing Lin and Yun Jing and Kun Ding},
  journal= {arXiv preprint arXiv:2601.01886},
  year   = {2026}
}

Comments

15 pages, 4 figures

R2 v1 2026-07-01T08:50:31.283Z