Genus Zero Kashiwara-Vergne Solutions from Braids
Abstract
Using the language of moperads-monoids in the category of right modules over an operad-we reinterpret the Alekseev-Enriquez-Torossian construction of Kashiwara-Vergne (KV) solutions from associators. We show that any isomorphism between the moperad of parenthesized braids with a frozen strand and the moperad of chord diagrams gives rise to a family of genus zero KV solutions operadically generated by a single classical KV solution. We show that the Grothendieck-Teichm\"uller module groups act on the latter, intertwining the actions of the KV symmetry groups. In the other direction, we show that any symmetric KV solution gives rise to a morphism from the moperad of parenthesized braids with a frozen strand to the moperad of tangential automorphisms of free Lie algebras. This morphism factors through the moperad of chord diagrams if and only if the associated KV associator is a Drinfeld associator.