Lie Weak Amenability of Triangular Banach Algebra
Received:November 02, 2016  Revised:May 17, 2017
Key Word: triangular Banach algebra   weak amenability   Lie derivation  
Fund ProjectL:Supported by the National Natural Science Foundation of China (Grant Nos.11171244; 11601010).
Author NameAffiliation
Lin CHEN Department of Mathematics and Physics, Anshun University, Guizhou 561000, P. R. China 
Fangyan LU Department of Mathematics, Soochow University, Jiangsu 215006, P. R. China 
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Abstract:
      Let $\mathcal {A}$ and $\mathcal B$ be unital Banach algebra and $\mathcal M$ be Banach $\mathcal A, \mathcal B$-module. Then $\mathcal T=\big( \begin{smallmatrix} \mathcal {A} & \mathcal M \\ & \mathcal {B} \end{smallmatrix}\big)$ becomes a triangular Banach algebra when equipped with the Banach space norm $\|\big( \begin{smallmatrix} a & m \\ & b \end{smallmatrix} \big)\|=\|a\|_{\mathcal A}+\|m\|_{\mathcal M}+\|b\|_{\mathcal B}$. A Banach algebra $\mathcal T$ is said to be Lie $n$-weakly amenable if all Lie derivations from $\mathcal T$ into its $n^{\text{th}}$ dual space ${\mathcal T}^{(n)}$ are standard. In this paper we investigate Lie $n$-weak amenability of a triangular Banach algebra $\mathcal T$ in relation to that of the algebras $\mathcal A, \mathcal B$ and their action on the module $\mathcal M$.
Citation:
DOI:10.3770/j.issn:2095-2651.2017.05.010
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