Abstract

Let $R$ be a commutative ring with unit. We develop a Hochschild cohomology theory in the category $\mathcal{ℱ}$ of linear functors defined from an essentially small symmetric monoidal category enriched in $R$-Mod, to $R$-Mod. The category $\mathcal{ℱ}$ is known to be symmetric monoidal too, so one can consider monoids in $\mathcal{ℱ}$ and modules over these monoids, which allows for the possibility of a Hochschild cohomology theory. The emphasis of the article is in considering natural hom constructions appearing in this context. These homs, together with the abelian structure of $\mathcal{ℱ}$, lead to nice definitions and provide effective tools to prove the main properties and results of the classical Hochschild cohomology theory.

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