Shifted Poisson structures on differentiable stacks
Abstract
The purpose of this paper is to investigate shifted Poisson structures in context of differential geometry. The relevant notion is shifted Poisson structures on differentiable stacks. More precisely, we develop the notion of Morita equivalence of quasi-Poisson groupoids. Thus isomorphism classes of Poisson stack correspond to Morita equivalence classes of quasi-Poisson groupoids. In the process, we carry out the following programs of independent interests: (1) We introduce a -graded Lie 2-algebra of polyvector fields on a given Lie groupoid and prove that its homotopy equivalence class is invariant under Morita equivalence of Lie groupoids, thus can be considered as polyvector fields on the corresponding differentiable stack . It turns out that shifted Poisson structures on correspond exactly to elements of the Maurer-Cartan moduli set of the corresponding dgla. (2) We introduce the notion of tangent complex and cotangent complex of a differentiable stack in terms of any Lie groupoid representing . They correspond to homotopy class of 2-term homotopy -modules and , respectively. We prove that a -shifted Poisson structure on a differentiable stack , defines a morphism .
Cite
@article{arxiv.1803.06685,
title = {Shifted Poisson structures on differentiable stacks},
author = {Francesco Bonechi and Nicola Ciccoli and Camille Laurent-Gengoux and Ping Xu},
journal= {arXiv preprint arXiv:1803.06685},
year = {2020}
}
Comments
49 pages; corrected misprints, added references. Section 4 and 5 underwent major rewriting. Examples are placed in a separate section. To be published in International Mathematics Research Notices