Set-theoretical solutions of the Yang-Baxter and pentagon equations on semigroups

Abstract

The Yang-Baxter and pentagon equations are two well-known equations of Mathematical Physic. If S is a set, a map s:S× S S× S is said to be a set theoretical solution of the Yang-Baxter equation if s23\, s13\, s12 = s12\, s13\, s23, where s12=s× idS, s23=idS× s, and s13=(idS× τ)\,s12\,(idS× τ) and τ is the flip map, i.e., the map on S× S given by τ(x,y)=(y,x). Instead, s is called a set-theoretical solution of the pentagon equation if s23\, s13\, s12=s12\, s23. The main aim of this work is to display how solutions of the pentagon equation turn out to be a useful tool to obtain new solutions of the Yang-Baxter equation. Specifically, we present a new construction of solutions of the Yang-Baxter equation involving two specific solutions of the pentagon equation. To this end, we provide a method to obtain solutions of the pentagon equation on the matched product of two semigroups, that is a semigroup including the classical Zappa product.