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arxiv: 1510.08921 · v1 · pith:7JAYNTCKnew · submitted 2015-10-29 · 🧮 math.CT

Taxotopy Theory of Posets I: van Kampen Theorems

classification 🧮 math.CT
keywords mathcalposetsfundamentallambdaposettaxotopydatafunctors
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Given functors $F,G:\mathcal C\to\mathcal D$ between small categories, when is it possible to say that $F$ can be "continuously deformed" into $G$ in a manner that is not necessarily reversible? In an attempt to answer this question in purely category-theoretic language, we use adjunctions to define a `taxotopy' preorder $\preceq$ on the set of functors $\mathcal C\to\mathcal D$, and combine this data into a `fundamental poset' $(\Lambda(\mathcal C,\mathcal D),\preceq)$. The main objects of study in this paper are the fundamental posets $\Lambda(\mathbf 1,P)$ and $\Lambda(\mathbb Z,P)$ for a poset $P$, where $\mathbf 1$ is the singleton poset and $\mathbb Z$ is the ordered set of integers; they encode the data about taxotopy of points and chains of $P$ respectively. Borrowing intuition from homotopy theory, we show that a suitable cone construction produces `null-taxotopic' posets and prove two forms of van Kampen theorem for computing fundamental posets via covers of posets.

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