Polydifferential Lie bialgebras and graph complexes (2402.00554v1)

Abstract: We study the deformation complex of a canonical morphism $i$ from the properad of (degree shifted) Lie bialgebras $\mathbf{Lieb}{c,d}$ to its polydifferential version $\mathcal{D}(\mathbf{Lieb}{c,d})$ and show that it is quasi-isomorphic to the oriented graph complex $\mathbf{GC}^{\text{or}}_{c+d+1}$, up to one rescaling class. As the latter complex is quasi-isomorphic to the original graph complex $\mathbf{GC}{c+d}$, we conclude that the space of homotopy non-trivial infinitesimal deformations of the canonical map $i$ can be identified with the Grothendieck-Teichm\"uller Lie algebra $\mathfrak{grt}$; moreover, every such an infinitesimal deformation extends to a genuine deformation of the canonical morphism $i$ from $\mathbf{Lieb}{c,d}$ to $\mathcal{D}(\mathbf{Lieb}_{c,d})$. The full deformation complex is described with the help of a new graph complex of so called entangled graphs, whose suitable quotient complex is shown to contain the tensor product $H(\mathbf{GC}_c) \otimes H(\mathbf{GC}_d)$ of cohomologies of Kontsevich graph complexes $\mathbf{GC}_c \otimes \mathbf{GC}_d$.