Accumulation points of congruence densities of finite lattices

Abstract

Let W be a nontrivial variety of lattices, and let L be a finite lattice in W. The congruence density of L with respect to W is the number of congruences of L divided by the maximum number of congruences of |L|-element lattices belonging to W. We prove that, with respect to the order and multiplication of the real numbers, the set SCD( W) of congruence densities of finite members of W as well as its topological closure are countably infinite dually well-ordered monoids. We also prove that the set of accumulation points of SCD( W) is either a singleton or it is countably infinite; furthermore, it is a singleton if and only if W is a subvariety of the variety of modular lattices. This gives a complicated characterization of modularity: a non-singleton lattice K is modular if and only if SCD( V(K)), where V(K) denotes the variety generated by K, has only one accumulation point. The class S of semimodular lattices is not a variety, but SCD( S) is still meaningful; we prove that SCD( S) has exactly one accumulation point.

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