Maximal semilattice quotient

In abstract algebra, a branch of mathematics, a maximal semilattice quotient is a commutative monoid derived from another commutative monoid by making certain elements equivalent to each other.

Every commutative monoid can be endowed with its algebraic preordering ≤ . By definition, x y holds, if there exists z such that x+z=y. Further, for x, y in M, let x\propto y hold, if there exists a positive integer n such that x≤ ny, and let x\asymp y hold, if x\propto y and y\propto x. The binary relation \asymp is a monoid congruence of M, and the quotient monoid M/{\asymp} is the maximal semilattice quotient of M.

This terminology can be explained by the fact that the canonical projection p from M onto M/{\asymp} is universal among all monoid homomorphisms from M to a (,0)-semilattice, that is, for any (,0)-semilattice S and any monoid homomorphism f: M→ S, there exists a unique (,0)-homomorphism g\colon M/{\asymp}\to S such that f=gp.

If M is a refinement monoid, then M/{\asymp} is a distributive semilattice.

References

A.H. Clifford and G.B. Preston, The Algebraic Theory of Semigroups. Vol. I. Mathematical Surveys, No. 7, American Mathematical Society, Providence, R.I. 1961. xv+224 p.


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