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arxiv: 1710.00658 · v2 · pith:4AZVX2UWnew · submitted 2017-10-02 · 🧮 math.CO · math-ph· math.MP· math.QA· math.SG

The heptagon-wheel cocycle in the Kontsevich graph complex

classification 🧮 math.CO math-phmath.MPmath.QAmath.SG
keywords graphscocyclegraphcocyclescomplexdifferentialedgesheptagon-wheel
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The real vector space of non-oriented graphs is known to carry a differential graded Lie algebra structure. Cocycles in the Kontsevich graph complex, expressed using formal sums of graphs on $n$ vertices and $2n-2$ edges, induce -- under the orientation mapping -- infinitesimal symmetries of classical Poisson structures on arbitrary finite-dimensional affine real manifolds. Willwacher has stated the existence of a nontrivial cocycle that contains the $(2\ell+1)$-wheel graph with a nonzero coefficient at every $\ell\in\mathbb{N}$. We present detailed calculations of the differential of graphs; for the tetrahedron and pentagon-wheel cocycles, consisting at $\ell = 1$ and $\ell = 2$ of one and two graphs respectively, the cocycle condition $d(\gamma) = 0$ is verified by hand. For the next, heptagon-wheel cocycle (known to exist at $\ell = 3$), we provide an explicit representative: it consists of 46 graphs on 8 vertices and 14 edges.

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