Eilenberg-Kelly重新加载

Q3 Computer Science Electronic Notes in Theoretical Computer Science Pub Date : 2020-10-01 DOI:10.1016/j.entcs.2020.09.012

Tarmo Uustalu, Niccolò Veltri, Noam Zeilberger

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引用次数: 5

摘要

Eilenberg-Kelly定理证明了一类具有对象I和两个函子⊗:C×C→C和⊗:Cop×C→C的范畴C，如果它是闭合的，并且该共轭在内部成立，则它是一元的。我们对这个定理的证明进行了剖析，并观察到由于闭范畴的标准定义在结合性方面是左偏的，所以有必要在闭范畴上存在一个边条件。我们分析了Street关于左偏单单调性等价于左偏封闭性的观察，并在需要正常结合性的调整的封闭性定义下，建立了单单调性无条件等价于封闭性。我们也给出了一个等价于右偏单单调的右偏封闭性的定义。我们给出了每种结构的例子;特别地，我们研究左偏闭范畴上的左强单子的Kleisli范畴和右偏闭范畴上的松弛单子的Kleisli范畴。我们也把倾斜和正常的单形和闭范畴看作是倾斜和正常的原形范畴的特殊情况，并简要地看一下左倾斜的单形-闭范畴。

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Eilenberg-Kelly Reloaded

The Eilenberg-Kelly theorem states that a category $C$ with an object I and two functors $\otimes : C \times C \to C$ and $⊸ : C^{op} \times C \to C$ related by an adjunction $- \otimes B ⊣ B ⊸ -$ natural in B is monoidal iff it is closed and moreover the adjunction holds internally. We dissect the proof of this theorem and observe that the necessity for a side condition on closedness arises because the standard definition of closed category is left-skew in regards to associativity. We analyze Street's observation that left-skew monoidality is equivalent to left-skew closedness and establish that monoidality is equivalent to closedness unconditionally under an adjusted definition of closedness that requires normal associativity. We also work out a definition of right-skew closedness equivalent to right-skew monoidality. We give examples of each type of structure; in particular, we look at the Kleisli category of a left-strong monad on a left-skew closed category and the Kleisli category of a lax closed monad on a right-skew closed category. We also view skew and normal monoidal and closed categories as special cases of skew and normal promonoidal categories and take a brief look at left-skew prounital-closed categories.

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Electronic Notes in Theoretical Computer Science Computer Science-Computer Science (all)

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