English

Fusion systems with Benson-Solomon components

Group Theory 2022-04-14 v3

Abstract

The Benson-Solomon systems comprise a one-parameter family of simple exotic fusion systems at the prime 22. The results we prove give significant additional evidence that these are the only simple exotic 22-fusion systems, as conjectured by Solomon. We consider a saturated fusion system F\mathcal{F} having an involution centralizer with a component C\mathcal{C} isomorphic to a Benson-Solomon fusion system, and we show under rather general hypotheses that F\mathcal{F} cannot be simple. Furthermore, we prove that if F\mathcal{F} is almost simple with these properties, then F\mathcal{F} is isomorphic to the next larger Benson-Solomon system extended by a group of field automorphisms. Our results are situated within Aschbacher's program to provide a new proof of a major part of the classification of finite simple groups via fusion systems. One of the most important steps in this program is a proof of Walter's Theorem for fusion systems, and our first result is specifically tailored for use in the proof of that step. We then apply Walter's Theorem to treat the general Benson-Solomon component problem under the assumption that each component of an involution centralizer in F\mathcal{F} is on the list of currently known quasisimple 22-fusion systems.

Cite

@article{arxiv.1806.01938,
  title  = {Fusion systems with Benson-Solomon components},
  author = {Ellen Henke and Justin Lynd},
  journal= {arXiv preprint arXiv:1806.01938},
  year   = {2022}
}

Comments

v1: 31 pages; v2: 42 pages, results strengthened in new Thm 2 with proof in new Sec 7, Cor 3 and Prop 4 added, introduction expanded, other improvements; v3: 48 pages, improvements in response to anonymous referee reports. To appear in Duke Math. J

R2 v1 2026-06-23T02:20:22.286Z