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In category theory, a monoidal monad is a monad on a monoidal category such that the functor : is a lax monoidal functor and the natural transformations are monoidal natural transformations. In other words, is equipped with coherence maps : and : satisfying certain properties, and its structure maps : and : must be monoidal with respect to . By monoidality of , the morphisms and are necessarily equal. This is equivalent to saying that a monoidal monad is a monad in the 2-category MonCat of monoidal categories, monoidal functors, and monoidal natural transformations. ==Hopf monads and bimonads== Ieke Moerdijk introduced the notion of a Hopf monad, which is an opmonoidal monad, that is, a monad with coherence morphisms and and opmonoidal natural transformations as multiplication and left/right units. An easy example for the category of vector spaces is the monad , where is a bialgebra.〔 The multiplication in then defines the multiplication of the monad, while the comultiplication gives rise to the opmonoidal structure. The algebras of this monad are just right -modules. In works of Bruguières and Virelizier, this concept has been renamed bimonad, by analogy to "bialgebra". They reserve the term "Hopf monad" for bimonads with an antipode, in analogy to "Hopf algebras". 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「monoidal monad」の詳細全文を読む スポンサード リンク
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