Maurer-Cartan equation in the DGLA of graded derivations
Let M be a smooth manifold and D = ℒΨ+𝒥Ψ a solution of the Maurer-Cartan equation in the DGLA of graded derivations D* (M) of differential forms on M, where Ψ, Ψ are differential 1-form on M with values in the tangent bundle TM and ℒΨ, 𝒥Ψ are the d* and i* components of D. Under the hypothesis that...
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| Autores principales: | , |
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| Formato: | article |
| Lenguaje: | EN |
| Publicado: |
De Gruyter
2021
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| Materias: | |
| Acceso en línea: | https://doaj.org/article/3d3765efb72548cd93f043031b242882 |
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| Sumario: | Let M be a smooth manifold and D = ℒΨ+𝒥Ψ a solution of the Maurer-Cartan equation in the DGLA of graded derivations D* (M) of differential forms on M, where Ψ, Ψ are differential 1-form on M with values in the tangent bundle TM and ℒΨ, 𝒥Ψ are the d* and i* components of D. Under the hypothesis that IdT(M) + Ψ is invertible we prove that Ψ=b(Ψ)=-12_(IdTM+Ψ)-1∘[Ψ,Ψ]ℱ𝒩{\rm{\Psi = }}b\left( {\rm{\Psi }} \right) = - {1 \over {}}{\left( {I{d_{TM}} + {\rm{\Psi }}} \right)^{ - 1}} \circ {\left[ {{\rm{\Psi }},{\rm{\Psi }}} \right]_{\mathcal{F}\mathcal{N}}}, where [·, ·]𝒩 is the Frölicher-Nijenhuis bracket. This yields to a classification of the canonical solutions eΨ= ℒΨ+𝒥b(Ψ) of the Maurer-Cartan equation according to their type: eΨ is of finite type r if there exists r∈ 𝒩 such that Ψr∘ [Ψ, Ψ]𝒩 = 0 and r is minimal with this property, where [·, ·]𝒩 is the Frölicher-Nijenhuis bracket. A distribution ξ ⊂TM of codimension k ⩾ 1 is integrable if and only if the canonical solution eΨ associated to the endomorphism Ψ of TM which is trivial on ξ and equal to the identity on a complement of ξ in TM is of finite type ⩽ 1, respectively of finite type 0 if k = 1. |
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