# Analytic Linear Lie rack Structures on Leibniz Algebras

**Authors:** Hamid Abchir, Fatima-Ezzahrae Abid, Mohamed Boucetta

arXiv: 1908.05057 · 2019-08-15

## TL;DR

This paper characterizes analytic linear Lie rack structures on Leibniz algebras, showing their relation to cohomology, and demonstrates rigidity for certain classical Lie algebras, proposing a conjecture for all simple Lie algebras.

## Contribution

It provides a complete characterization of analytic linear Lie rack structures on Leibniz algebras and introduces the concept of rigidity for these structures.

## Key findings

- -cohomology triviality implies solvability of equations defining Lie rack structures.
- -cohomology triviality leads to classification of structures.
- -cohomology computations show -cohomology vanishes for  and .

## Abstract

A linear Lie rack structure on a finite dimensional vector space $V$ is a Lie rack operation $(x,y)\mapsto x\rhd y$ pointed at the origin and such that for any $x$, the left translation $\mathrm{L}_x:y\mapsto \mathrm{L}_x(y)= x\rhd y$ is linear. A linear Lie rack operation $\rhd$ is called analytic if for any $x,y\in V$,   \[ x\rhd y=y+\sum_{n=1}^\infty A_{n,1}(x,\ldots,x,y), \]where $A_{n,1}:V\times\ldots\times V\Leftarrow V$ is an $n+1$-multilinear map symmetric in the $n$ first arguments. In this case, $A_{1,1}$ is exactly the left Leibniz product associated to $\rhd$. Any left Leibniz algebra $(\mathfrak{h},[\;,\;])$ has a canonical analytic linear Lie rack structure given by $x\stackrel{c}{\rhd} y=\exp(\mathrm{ad}_x)(y)$, where $\mathrm{ad}_x(y)=[x,y]$.   In this paper, we show that a sequence $(A_{n,1})_{n\geq1}$ of $n+1$-multilinear maps on a vector space $V$ defines an analytic linear Lie rack structure if and only if $[\;,\;]:=A_{1,1}$ is a left Leibniz bracket, the $A_{n,1}$ are invariant for $(V,[\;,\;]:)$ and satisfy a sequence of multilinear equations. Some of these equations have a cohomological interpretation and can be solved when the zero and the 1-cohomology of the left Leibniz algebra $(V,[\;,\;])$ are trivial. On the other hand, given a left Leibniz algebra $(\mathfrak{h},[\;,\;])$, we show that there is a large class of (analytic) linear Lie rack structures on $(\mathfrak{h},[\;,\;])$ which can be built from the canonical one and invariant multilinear symmetric maps on $\mathfrak{h}$. A left Leibniz algebra on which all the analytic linear Lie rack structures are build in this way will be called rigid. We use our characterizations of analytic linear Lie rack structures to show that $\mathfrak{sl}_2(\mathbb{R})$ and $\mathfrak{so}(3)$ are rigid. We conjecture that any simple Lie algebra is rigid as a left Leibniz algebra.

## Full text

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## References

17 references — full list in the complete paper: https://tomesphere.com/paper/1908.05057/full.md

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Source: https://tomesphere.com/paper/1908.05057