Abstract
We construct comparison morphisms between two well-known projective resolutions of a monomial algebra $A$: the bar resolution $\operatorname{\mathbb{Bar}} A$ and Bardzell's resolution $\operatorname{\mathbb{Ap}} A$; the first one is used to define the cup product and the Lie bracket on the Hochschild cohomology $\operatorname{HH} ^*(A)$ and the second one has been shown to be an efficient tool for computation of these cohomology groups. The constructed comparison morphisms allow us to show that the cup product restricted to even degrees of the Hochschild cohomology has a very simple description. Moreover, for $A= \mathbb{k} Q/I$ a monomial algebra such that $\dim_ \mathbb{k} e_i A e_j = 1$ whenever there exists an arrow $\alpha: i \to j \in Q_1$, we describe the Lie action of the Lie algebra $\operatorname{HH}^1(A)$ on $\operatorname{HH}^{\ast} (A)$.
Highlights
Hochschild cohomology of associative algebras was introduced by G
In the case where A is an algebra over a ring k such that A is k-projective, Cartan and Eilenberg give a useful interpretation of the Hochschild cohomology groups HHn(A, A) with coefficients in A
They prove that these groups can be identified with the groups ExtnAe(A, A) and be calculated using arbitrary projective resolutions of A over its enveloping algebra Ae, see [5]
Summary
Hochschild cohomology of associative algebras was introduced by G. In the case where A is an algebra over a ring k such that A is k-projective, Cartan and Eilenberg give a useful interpretation of the Hochschild cohomology groups HHn(A, A) with coefficients in A They prove that these groups can be identified with the groups ExtnAe(A, A) and be calculated using arbitrary projective resolutions of A over its enveloping algebra Ae, see [5]. Important improvements have been made when considering the cup product: it has another description, the Yoneda product, which can be transported to the complex obtained by using any other projective resolution This has been used to described the ring structure of HH∗(A) for many algebras A such as radical square zero algebras [6], truncated quiver algebras [1], Koszul algebras [4] and so on. We show that the cup product restricted to even degrees of the Hochschild cohomology has a very simple description
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