English

Moser Lemma in Generalized Complex Geometry

Differential Geometry 2012-09-11 v1 Symplectic Geometry

Abstract

We show how the classical Moser Lemma from symplectic geometry extends to generalized complex structures (GCS) on arbitrary Courant algebroids. For this, we extend the notion of Lie derivative to sections of the tensor bundle (iE)(jE)(\otimes^i E)\otimes(\otimes^j E^*) with respect to sections of the Courant algebroid EE using the Dorfman bracket. We then give a cohomological interpretation of the existence of one-parameter families of GCS on EE and of flows of automorphims of EE identifying all GCS of such a family. In the particular cases of symplectic, we recover the results of Moser. Finally, we give a criterion to detect the local triviality of arbitrary GCS which generalizes the Darboux-Weinstein theorem.

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Cite

@article{arxiv.math/0702718,
  title  = {Moser Lemma in Generalized Complex Geometry},
  author = {Mathieu Stienon},
  journal= {arXiv preprint arXiv:math/0702718},
  year   = {2012}
}

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18 pages