English

Simplex Layers and Phase Boundaries in the Partition Graph

General Mathematics 2026-04-02 v1

Abstract

For the partition graph GnG_n on the set of partitions of nn, we study the stratification induced by the local simplex dimension dimloc(λ)\dim_{\mathrm{loc}}(\lambda), defined as the maximal dimension of a simplex of the clique complex Kn=Cl(Gn)K_n=\mathrm{Cl}(G_n) containing λ\lambda. Using the previously established description of maximal cliques through a vertex in terms of star and top capacities, we define the simplex layers Lr(n):={λn:dimloc(λ)=r}L_r(n):=\{\lambda\vdash n:\dim_{\mathrm{loc}}(\lambda)=r\} and study their global structure. We formalize the resulting layer stratification, rewrite layer membership in terms of local capacities, and record its basic consequences, including conjugation invariance. We then investigate first occurrence of layers across nn, introducing the indices nrfirstn_r^{\mathrm{first}} and the corresponding first-occurrence sets Fr\mathcal{F}_r. For the initial layer values, we obtain explicit exact results; more generally, we record a finite first-occurrence table and several natural sequence questions. We also define the adjacent-layer edge boundary r,r+1E(n)\partial^E_{r,r+1}(n), consisting of edges joining Lr(n)L_r(n) to Lr+1(n)L_{r+1}(n), together with the associated one-sided and vertex-boundary variants. This provides an exact interface language for the layer stratification, distinct from the broader shell-type geometric language used elsewhere in the project.

Keywords

Cite

@article{arxiv.2603.29988,
  title  = {Simplex Layers and Phase Boundaries in the Partition Graph},
  author = {Fedor B. Lyudogovskiy},
  journal= {arXiv preprint arXiv:2603.29988},
  year   = {2026}
}

Comments

22 pages

R2 v1 2026-07-01T11:46:42.484Z