Categories enriched over oplax monoidal categories


Journal article


Thomas Basile, D. Lejay, Kevin Morand
2022

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APA   Click to copy
Basile, T., Lejay, D., & Morand, K. (2022). Categories enriched over oplax monoidal categories.


Chicago/Turabian   Click to copy
Basile, Thomas, D. Lejay, and Kevin Morand. “Categories Enriched over Oplax Monoidal Categories” (2022).


MLA   Click to copy
Basile, Thomas, et al. Categories Enriched over Oplax Monoidal Categories. 2022.


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@article{thomas2022a,
  title = {Categories enriched over oplax monoidal categories},
  year = {2022},
  author = {Basile, Thomas and Lejay, D. and Morand, Kevin}
}

Abstract

We define a notion of category enriched over an oplax monoidal category V , extending the usual definition of category enriched over a monoidal category. Even though oplax monoidal structures involve infinitely many ‘tensor product’ functors Vn→V , the definition of categories enriched over V only requires the lower arity maps (n ⩽ 3), similarly to the monoidal case. The focal point of the enrichment theory shifts, in the oplax case, from the notion of V -category (classically given by collections of objects and hom-objects together with composition and unit maps) to the one of categories enriched over V (genuine categories equipped with additional structures). One of the merits of the notion of categories enriched over V is that it becomes straightforward to define both enriched functors and enriched natural transformations. We show moreover that the resulting 2-category CatV can be put in correspondence (via the theory of distributors) with the 2-category of modules over V . We give an example of such an enriched category in the framework of operads: every cocomplete symmetric monoidal category C is enriched over the category of sequences in C endowed with an oplax monoidal structure stemming from the usual operadic composition product, whose monoids are still the (planar) operads. As an application of the study of the 2-functor V 7→ CatV , we show that when V is also endowed with a compatible lax monoidal structure— thus forming a lax-oplax duoidal category—the 2-category CatV inherits a lax 2-monoidal structure, thereby generalising the corresponding result when the enrichment base is a braided monoidal category. We illustrate this result by discussing in details the lax-oplax structure on the category of (Re,Re)-bimodules, whose bimonoids are the bialgebroids. We conclude by commenting on the relations between the enrichment theory over oplax monoidal categories and other enrichment theories (monoidal, multicategories, skew and lax).


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