Algebraic aspects of connections: From torsion, curvature, and post-Lie algebras to Gavrilov's double exponential and special polynomials

IF 0.7 2区数学 Q2 MATHEMATICS

Journal of Noncommutative Geometry Pub Date : 2023-11-12 DOI:10.4171/jncg/539

M. J. H. Al-Kaabi, K. Ebrahimi-Fard, D. Manchon, H. Z. Munthe-Kaas

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引用次数: 1

Abstract

Understanding the algebraic structure underlying a manifold with a general affine connection is a natural problem. In this context, A. V. Gavrilov introduced the notion of framed Lie algebra, consisting of a Lie bracket (the usual Jacobi bracket of vector fields) and a magmatic product without any compatibility relations between them. In this work we will show that an affine connection with curvature and torsion always gives rise to a post-Lie algebra as well as a $D$-algebra. The notions of torsion and curvature together with Gavrilov's special polynomials and double exponential are revisited in this post-Lie algebraic framework. We unfold the relations between the post-Lie Magnus expansion, the Grossman-Larson product and the $K$-map, $\alpha$-map and $\beta$-map, three particular functions introduced by Gavrilov with the aim of understanding the geometric and algebraic properties of the double-exponential, which can be understood as a geometric variant of the Baker-Campbell-Hausdorff formula. We propose a partial answer to a conjecture by Gavrilov, by showing that a particular class of geometrically special polynomials is generated by torsion and curvature. This approach unlocks many possibilities for further research such as numerical integrators and rough paths on Riemannian manifolds.

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连接的代数方面:从扭转、曲率、后李代数到加夫里洛夫的二重指数和特殊多项式

理解具有一般仿射连接的流形的代数结构是一个很自然的问题。在这种情况下，a . V. Gavrilov引入了框架李代数的概念，它由一个李括号(向量场通常的雅可比括号)和一个岩浆积组成，两者之间没有任何相容关系。在这项工作中，我们将证明具有曲率和扭转的仿射连接总是产生后李代数以及$D$ -代数。在这个后李代数框架中，我们重新讨论了扭转和曲率的概念以及加夫里洛夫的特殊多项式和二重指数。我们揭示了后lie Magnus展开、Grossman-Larson积和$K$ -map、$\alpha$ -map和$\beta$ -map之间的关系，这三个特殊的函数是由Gavrilov引入的，目的是理解双指数的几何和代数性质，它可以被理解为Baker-Campbell-Hausdorff公式的几何变化。通过证明一类几何上特殊的多项式是由扭转和曲率产生的，我们给出了对加夫里洛夫猜想的部分回答。这种方法为进一步研究数值积分器和黎曼流形上的粗糙路径开辟了许多可能性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Noncommutative Geometry 数学-数学

CiteScore

1.60

自引率

11.10%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Noncommutative Geometry covers the noncommutative world in all its aspects. It is devoted to publication of research articles which represent major advances in the area of noncommutative geometry and its applications to other fields of mathematics and theoretical physics. Topics covered include in particular: Hochschild and cyclic cohomology K-theory and index theory Measure theory and topology of noncommutative spaces, operator algebras Spectral geometry of noncommutative spaces Noncommutative algebraic geometry Hopf algebras and quantum groups Foliations, groupoids, stacks, gerbes Deformations and quantization Noncommutative spaces in number theory and arithmetic geometry Noncommutative geometry in physics: QFT, renormalization, gauge theory, string theory, gravity, mirror symmetry, solid state physics, statistical mechanics.