Containment order

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In the mathematical field of order theory, a containment order is the partial order that arises as the subset-containment relation on some collection of objects. In a simple way, every poset P = (≤, X) is (isomorphic to) a containment order (like every group is isomorphic to a permutation group - Cayley's theorem). To see this, associate to each element x of X the set

$X_{\leq }(x)=\{y\in X|y\leq x\};$

then the transitivity of ≤ ensures that for all a and b in X, we have

$X_{\leq }(a)\subseteq X_{\leq }(b){\mbox{ precisely when }}a\leq b.$

There can be sets $S$ of cardinal less than $|X|$ such that P is isomorphic to the containment order on S. The size of the smallest possible S is called the 2-dimension of S.

Several important classes of poset arise as containment orders for some natural collections, like the Boolean lattice Qⁿ, which is the collection of all 2ⁿ subsets of an n-element set, the dimension-n orders, which are the containment orders on collections of n-boxes anchored at the origin, and the interval-containment orders, which are precisely the orders of dimension ≤ 2. Other containment orders that are interesting in their own right include the circle orders, which arise from disks in the plane, and the angle orders.

References

Fishburn, P.C. and Trotter, W.T. (1998). "Geometric containment orders: a survey". Order 15 (2): 167–182. doi:10.1023/A:1006110326269.
Santoro, N., Sidney, J.B., Sidney, S.J., and Urrutia, J. (1989). "Geometric containment and partial orders". SIAM Journal on Discrete Mathematics 2 (2): 245–254. doi:10.1137/0402021.

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Containment order

See also

References