In the

mathematical Mathematics is a field of study that discovers and organizes methods, Mathematical theory, theories and theorems that are developed and Mathematical proof, proved for the needs of empirical sciences and mathematics itself. There are many ar ...

field of

order theory Order theory is a branch of mathematics that investigates the intuitive notion of order using binary relations. It provides a formal framework for describing statements such as "this is less than that" or "this precedes that". This article intr ...

, an order isomorphism is a special kind of

monotone function In mathematics, a monotonic function (or monotone function) is a function between ordered sets that preserves or reverses the given order. This concept first arose in calculus, and was later generalized to the more abstract setting of ord ...

that constitutes a suitable notion of

isomorphism In mathematics, an isomorphism is a structure-preserving mapping or morphism between two structures of the same type that can be reversed by an inverse mapping. Two mathematical structures are isomorphic if an isomorphism exists between the ...

for

partially ordered set In mathematics, especially order theory, a partial order on a Set (mathematics), set is an arrangement such that, for certain pairs of elements, one precedes the other. The word ''partial'' is used to indicate that not every pair of elements need ...

s (posets). Whenever two posets are order isomorphic, they can be considered to be "essentially the same" in the sense that either of the orders can be obtained from the other just by renaming of elements. Two strictly weaker notions that relate to order isomorphisms are order embeddings and

Galois connection In mathematics, especially in order theory, a Galois connection is a particular correspondence (typically) between two partially ordered sets (posets). Galois connections find applications in various mathematical theories. They generalize the fun ...

s. The idea of isomorphism can be understood for finite orders in terms of Hasse diagrams. Two finite orders are isomorphic exactly when a single Hasse diagram (

up to Two Mathematical object, mathematical objects and are called "equal up to an equivalence relation " * if and are related by , that is, * if holds, that is, * if the equivalence classes of and with respect to are equal. This figure of speech ...

relabeling of its elements) expresses them both, in other words when every Hasse diagram of either can be converted to a Hasse diagram of the other by simply relabeling the vertices.

Definition

Formally, given two posets

(S,\le_S)

and

(T,\le_T)

, an order isomorphism from

(S,\le_S)

(T,\le_T)

is a bijective function

f

from

S

T

with the property that, for every

x

and

y

S

x \le_S y

if and only if

f(x)\le_T f(y)

. That is, it is a bijective order-embedding. It is also possible to define an order isomorphism to be a

surjective In mathematics, a surjective function (also known as surjection, or onto function ) is a function such that, for every element of the function's codomain, there exists one element in the function's domain such that . In other words, for a f ...

order-embedding. The two assumptions that

f

cover all the elements of

T

and that it preserve orderings, are enough to ensure that

f

is also one-to-one, for if

f(x)=f(y)

then (by the assumption that

f

preserves the order) it would follow that

x\le y

and

y\le x

, implying by the definition of a partial order that

x=y

. Yet another characterization of order isomorphisms is that they are exactly the monotone

bijection In mathematics, a bijection, bijective function, or one-to-one correspondence is a function between two sets such that each element of the second set (the codomain) is the image of exactly one element of the first set (the domain). Equival ...

s that have a monotone inverse. An order isomorphism from a partially ordered set to itself is called an order

automorphism In mathematics, an automorphism is an isomorphism from a mathematical object to itself. It is, in some sense, a symmetry of the object, and a way of mapping the object to itself while preserving all of its structure. The set of all automorphism ...

. When an additional algebraic structure is imposed on the posets

(S,\le_S)

and

(T,\le_T)

, a function from

(S,\le_S)

(T,\le_T)

must satisfy additional properties to be regarded as an isomorphism. For example, given two

partially ordered group In abstract algebra, a partially ordered group is a group (''G'', +) equipped with a partial order "≤" that is ''translation-invariant''; in other words, "≤" has the property that, for all ''a'', ''b'', and ''g'' in ''G'', if ''a'' ≤ ''b'' ...

s (po-groups)

(G, \le_G)

and

(H, \le_H)

, an isomorphism of po-groups from

(G,\leq_G)

(H,\le_H)

is an order isomorphism that is also a

group isomorphism In abstract algebra, a group isomorphism is a function between two groups that sets up a bijection between the elements of the groups in a way that respects the given group operations. If there exists an isomorphism between two groups, then the ...

, not merely a bijection that is an order embedding.

Examples

* The

identity function Graph of the identity function on the real numbers In mathematics, an identity function, also called an identity relation, identity map or identity transformation, is a function that always returns the value that was used as its argument, unc ...

on any partially ordered set is always an order automorphism. *

Negation In logic, negation, also called the logical not or logical complement, is an operation (mathematics), operation that takes a Proposition (mathematics), proposition P to another proposition "not P", written \neg P, \mathord P, P^\prime or \over ...

is an order isomorphism from

(\mathbb,\leq)

(\mathbb,\geq)

(where

\mathbb

is the set of

real number In mathematics, a real number is a number that can be used to measure a continuous one- dimensional quantity such as a duration or temperature. Here, ''continuous'' means that pairs of values can have arbitrarily small differences. Every re ...

s and

\le

denotes the usual numerical comparison), since −''x'' ≥ −''y'' if and only if ''x'' ≤ ''y''. * The

open interval In mathematics, a real interval is the set (mathematics), set of all real numbers lying between two fixed endpoints with no "gaps". Each endpoint is either a real number or positive or negative infinity, indicating the interval extends without ...

(0,1)

(again, ordered numerically) does not have an order isomorphism to or from the

closed interval In mathematics, a real interval is the set of all real numbers lying between two fixed endpoints with no "gaps". Each endpoint is either a real number or positive or negative infinity, indicating the interval extends without a bound. A real in ...

,1 /math>: the closed interval has a least element, but the open interval does not, and order isomorphisms must preserve the existence of least elements.
*By Cantor's isomorphism theorem, every unbounded countable dense linear order is isomorphic to the ordering of the

rational number In mathematics, a rational number is a number that can be expressed as the quotient or fraction of two integers, a numerator and a non-zero denominator . For example, is a rational number, as is every integer (for example, The set of all ...

s. Explicit order isomorphisms between the quadratic algebraic numbers, the rational numbers, and the dyadic rational numbers are provided by Minkowski's question-mark function.

Order types

f

is an order isomorphism, then so is its

inverse function In mathematics, the inverse function of a function (also called the inverse of ) is a function that undoes the operation of . The inverse of exists if and only if is bijective, and if it exists, is denoted by f^ . For a function f\colon ...

. Also, if

f

is an order isomorphism from

(S,\le_S)

(T,\le_T)

and

g

is an order isomorphism from

(T,\le_T)

(U,\le_U)

, then the

function composition In mathematics, the composition operator \circ takes two function (mathematics), functions, f and g, and returns a new function h(x) := (g \circ f) (x) = g(f(x)). Thus, the function is function application, applied after applying to . (g \c ...

f

and

g

is itself an order isomorphism, from

(S,\le_S)

(U,\le_U)

. Two partially ordered sets are said to be order isomorphic when there exists an order isomorphism from one to the other.. Identity functions, function inverses, and compositions of functions correspond, respectively, to the three defining characteristics of an

equivalence relation In mathematics, an equivalence relation is a binary relation that is reflexive, symmetric, and transitive. The equipollence relation between line segments in geometry is a common example of an equivalence relation. A simpler example is equ ...

: reflexivity,

symmetry Symmetry () in everyday life refers to a sense of harmonious and beautiful proportion and balance. In mathematics, the term has a more precise definition and is usually used to refer to an object that is Invariant (mathematics), invariant und ...

, and transitivity. Therefore, order isomorphism is an equivalence relation. The class of partially ordered sets can be partitioned by it into

equivalence class In mathematics, when the elements of some set S have a notion of equivalence (formalized as an equivalence relation), then one may naturally split the set S into equivalence classes. These equivalence classes are constructed so that elements ...

es, families of partially ordered sets that are all isomorphic to each other. These equivalence classes are called

order type In mathematics, especially in set theory, two ordered sets and are said to have the same order type if they are order isomorphic, that is, if there exists a bijection (each element pairs with exactly one in the other set) f\colon X \to Y su ...

Notes

References

*. *. *. *. {{Order theory Morphisms Order theory

Definition

Examples

Order types

See also

Notes

References