English

Ramanujan Complexes from Unitary Groups over Number Fields

Number Theory 2026-03-09 v1 Combinatorics Representation Theory

Abstract

In this article, we construct new families of Ramanujan complexes with local structure distinct from all previously known examples. Our approach is based on unitary groups over number fields, more specifically on what we call super-definite unitary groups, that is definite unitary groups that are anisotropic modulo their center at a finite place. These arise naturally as groups of units in central division algebras with involution of the second kind. Our first main result gives a general construction of infinite families of Ramanujan complexes associated with a super-definite unitary group GG over a totally real number field and a finite place v0v_0. The structure of the resulting complex is governed by the type of the Bruhat-Tits building at v0v_0. It includes new examples of type AnA_n when v0v_0 is split, and novel families of type 2 ⁣An{}^2\!A'_n, 2 ⁣An{}^2 \! A''_n (with nn even), BB-CnC_n, 2 ⁣B{}^2 \! B-CnC_n and CC-BCnBC_n in the non-split case. This construction works uniformly across all ranks. Since much of the motivation for constructing expander complexes comes from computer science, we investigate the algorithmic explicitness of our construction in the latter part of the paper, and provide an example in rank 5 where it becomes fully explicit. In particular, this example yields golden gates for the real Lie group PU(5)PU(5).

Keywords

Cite

@article{arxiv.2603.06156,
  title  = {Ramanujan Complexes from Unitary Groups over Number Fields},
  author = {Rahul Dalal and Alberto Mínguez and Jiandi Zou},
  journal= {arXiv preprint arXiv:2603.06156},
  year   = {2026}
}

Comments

54 pages

R2 v1 2026-07-01T11:06:36.632Z