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mathematics Mathematics is an area of knowledge that includes the topics of numbers, formulas and related structures, shapes and the spaces in which they are contained, and quantities and their changes. These topics are represented in modern mathematics ...
, Alexander duality refers to a
duality theory In mathematics, a duality translates concepts, theorems or mathematical structures into other concepts, theorems or structures, in a one-to-one fashion, often (but not always) by means of an involution operation: if the dual of is , then the ...
presaged by a result of 1915 by J. W. Alexander, and subsequently further developed, particularly by
Pavel Alexandrov Pavel Sergeyevich Alexandrov (russian: Па́вел Серге́евич Алекса́ндров), sometimes romanized ''Paul Alexandroff'' (7 May 1896 – 16 November 1982), was a Soviet mathematician. He wrote about three hundred papers, ma ...
and
Lev Pontryagin Lev Semenovich Pontryagin (russian: Лев Семёнович Понтрягин, also written Pontriagin or Pontrjagin) (3 September 1908 – 3 May 1988) was a Soviet mathematician. He was born in Moscow and lost his eyesight completely due ...
. It applies to the homology theory properties of the complement of a subspace ''X'' in
Euclidean space Euclidean space is the fundamental space of geometry, intended to represent physical space. Originally, that is, in Euclid's Elements, Euclid's ''Elements'', it was the three-dimensional space of Euclidean geometry, but in modern mathematics ther ...
, a
sphere A sphere () is a Geometry, geometrical object that is a solid geometry, three-dimensional analogue to a two-dimensional circle. A sphere is the Locus (mathematics), set of points that are all at the same distance from a given point in three ...
, or other
manifold In mathematics, a manifold is a topological space that locally resembles Euclidean space near each point. More precisely, an n-dimensional manifold, or ''n-manifold'' for short, is a topological space with the property that each point has a n ...
. It is generalized by
Spanier–Whitehead duality In mathematics, Spanier–Whitehead duality is a duality theory in homotopy theory, based on a geometrical idea that a topological space ''X'' may be considered as dual to its complement in the ''n''-sphere, where ''n'' is large enough. Its or ...
.


General statement for spheres

Let X be a
compact Compact as used in politics may refer broadly to a pact or treaty; in more specific cases it may refer to: * Interstate compact * Blood compact, an ancient ritual of the Philippines * Compact government, a type of colonial rule utilized in British ...
, locally contractible subspace of the
sphere A sphere () is a Geometry, geometrical object that is a solid geometry, three-dimensional analogue to a two-dimensional circle. A sphere is the Locus (mathematics), set of points that are all at the same distance from a given point in three ...
S^n of dimension ''n''. Let S^n\setminus X be the complement of X in S^n. Then if \tilde stands for
reduced homology In mathematics, reduced homology is a minor modification made to homology theory in algebraic topology, motivated by the intuition that all of the homology groups of a single point should be equal to zero. This modification allows more concise stat ...
or
reduced cohomology In mathematics, reduced homology is a minor modification made to homology theory in algebraic topology, motivated by the intuition that all of the homology groups of a single point should be equal to zero. This modification allows more concise stat ...
, with coefficients in a given
abelian group In mathematics, an abelian group, also called a commutative group, is a group in which the result of applying the group operation to two group elements does not depend on the order in which they are written. That is, the group operation is commut ...
, there is an
isomorphism In mathematics, an isomorphism is a structure-preserving mapping 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 them. The word is ...
:\tilde_q(S^n\setminus X) \cong \tilde^(X) for all q\ge 0. Note that we can drop local contractibility as part of the hypothesis, if we use
Čech cohomology In mathematics, specifically algebraic topology, Čech cohomology is a cohomology theory based on the intersection properties of open covers of a topological space. It is named for the mathematician Eduard Čech. Motivation Let ''X'' be a topolo ...
, which is designed to deal with local pathologies.


Applications

This is useful for computing the cohomology of
knot A knot is an intentional complication in cordage which may be practical or decorative, or both. Practical knots are classified by function, including hitches, bends, loop knots, and splices: a ''hitch'' fastens a rope to another object; a ' ...
and link complements in S^3. Recall that a knot is an embedding K\colon S^1 \hookrightarrow S^3 and a link is a disjoint union of knots, such as the
Borromean rings In mathematics, the Borromean rings are three simple closed curves in three-dimensional space that are topologically linked and cannot be separated from each other, but that break apart into two unknotted and unlinked loops when any one of the t ...
. Then, if we write the link/knot as L, we have :\tilde_q(S^3\setminus L) \cong \tilde^(L), giving a method for computing the cohomology groups. Then, it is possible to differentiate between different links using the
Massey product In algebraic topology, the Massey product is a cohomology operation of higher order introduced in , which generalizes the cup product. The Massey product was created by William S. Massey, an American algebraic topologist. Massey triple product Le ...
s. For example, for the Borromean rings L, the homology groups are :\begin \tilde_0(S^3 \setminus L)&\cong \tilde^(L) = 0 \\ \tilde_1(S^3 \setminus L)&\cong \tilde^(L) = \Z^\\ \tilde_2(S^3 \setminus L)&\cong \tilde^(L) = \Z^\\ \tilde_3(S^3 \setminus L)&\cong 0 \\ \end


Alexander duality for constructible sheaves

For
smooth manifold In mathematics, a differentiable manifold (also differential manifold) is a type of manifold that is locally similar enough to a vector space to allow one to apply calculus. Any manifold can be described by a collection of charts (atlas). One ma ...
s, Alexander duality is a formal consequence of
Verdier duality In mathematics, Verdier duality is a cohomological duality in algebraic topology that generalizes Poincaré duality for manifolds. Verdier duality was introduced in 1965 by as an analog for locally compact topological spaces of Alexander Groth ...
for sheaves of abelian groups. More precisely, if we let X denote a smooth manifold and we let Y \subset X be a closed subspace (such as a subspace representing a cycle, or a submanifold) represented by the inclusion i\colon Y \hookrightarrow X, and if k is a field, then if \mathcal \in \text_k(Y) is a sheaf of k-vector spaces we have the following isomorphism :H^s_c(Y,\mathcal)^\vee \cong \operatorname_k^(i_*\mathcal, \omega_X -s, where the cohomology group on the left is compactly supported cohomology. We can unpack this statement further to get a better understanding of what it means. First, if \mathcal = \underline is the constant sheaf and Y is a smooth submanifold, then we get :\operatorname_k^(i_*\mathcal, \omega_X -r \cong H^_Y(X,\omega_X), where the cohomology group on the right is
local cohomology In algebraic geometry, local cohomology is an algebraic analogue of relative cohomology. Alexander Grothendieck introduced it in seminars in Harvard in 1961 written up by , and in 1961-2 at IHES written up as SGA2 - , republished as . Given a fu ...
with support in Y. Through further reductions, it is possible to identify the homology of X \setminus Y with the cohomology of Y. This is useful in algebraic geometry for computing the cohomology groups of projective varieties, and is exploited for constructing a basis of the Hodge structure of hypersurfaces of degree d using the Jacobian ring.


Alexander's 1915 result

To go back to Alexander's original work, it is assumed that ''X'' is a
simplicial complex In mathematics, a simplicial complex is a set composed of points, line segments, triangles, and their ''n''-dimensional counterparts (see illustration). Simplicial complexes should not be confused with the more abstract notion of a simplicial set ...
. Alexander had little of the modern apparatus, and his result was only for the
Betti number In algebraic topology, the Betti numbers are used to distinguish topological spaces based on the connectivity of ''n''-dimensional simplicial complexes. For the most reasonable finite-dimensional spaces (such as compact manifolds, finite simplicia ...
s, with coefficients taken ''modulo'' 2. What to expect comes from examples. For example the
Clifford torus In geometric topology, the Clifford torus is the simplest and most symmetric flat embedding of the cartesian product of two circles ''S'' and ''S'' (in the same sense that the surface of a cylinder is "flat"). It is named after William Kingdo ...
construction in the 3-sphere shows that the complement of a solid torus is another solid torus; which will be open if the other is closed, but this does not affect its homology. Each of the solid tori is from the
homotopy In topology, a branch of mathematics, two continuous functions from one topological space to another are called homotopic (from grc, ὁμός "same, similar" and "place") if one can be "continuously deformed" into the other, such a deforma ...
point of view a
circle A circle is a shape consisting of all points in a plane that are at a given distance from a given point, the centre. Equivalently, it is the curve traced out by a point that moves in a plane so that its distance from a given point is const ...
. If we just write down the Betti numbers :1, 1, 0, 0 of the circle (up to H_3, since we are in the 3-sphere), then reverse as :0, 0, 1, 1 and then shift one to the left to get :0, 1, 1, 0 there is a difficulty, since we are not getting what we started with. On the other hand the same procedure applied to the ''reduced'' Betti numbers, for which the initial Betti number is decremented by 1, starts with :0, 1, 0, 0 and gives :0, 0, 1, 0 whence :0, 1, 0, 0. This ''does'' work out, predicting the complement's reduced Betti numbers. The prototype here is the
Jordan curve theorem In topology, the Jordan curve theorem asserts that every '' Jordan curve'' (a plane simple closed curve) divides the plane into an " interior" region bounded by the curve and an " exterior" region containing all of the nearby and far away exteri ...
, which topologically concerns the complement of a
circle A circle is a shape consisting of all points in a plane that are at a given distance from a given point, the centre. Equivalently, it is the curve traced out by a point that moves in a plane so that its distance from a given point is const ...
in the
Riemann sphere In mathematics, the Riemann sphere, named after Bernhard Riemann, is a model of the extended complex plane: the complex plane plus one point at infinity. This extended plane represents the extended complex numbers, that is, the complex numbers pl ...
. It also tells the same story. We have the honest Betti numbers :1, 1, 0 of the circle, and therefore :0, 1, 1 by flipping over and :1, 1, 0 by shifting to the left. This gives back something different from what the Jordan theorem states, which is that there are two components, each
contractible In mathematics, a topological space ''X'' is contractible if the identity map on ''X'' is null-homotopic, i.e. if it is homotopic to some constant map. Intuitively, a contractible space is one that can be continuously shrunk to a point within that ...
(
Schoenflies theorem Arthur Moritz Schoenflies (; 17 April 1853 – 27 May 1928), sometimes written as Schönflies, was a German mathematician, known for his contributions to the application of group theory to crystallography, and for work in topology. Schoenflies ...
, to be accurate about what is used here). That is, the correct answer in honest Betti numbers is :2, 0, 0. Once more, it is the reduced Betti numbers that work out. With those, we begin with :0, 1, 0 to finish with :1, 0, 0. From these two examples, therefore, Alexander's formulation can be inferred: reduced Betti numbers \tilde_i are related in complements by :\tilde_i \to \tilde_.


References

* *


Further reading

* {{cite book, first1=Ezra, last1=Miller, first2= Bernd , last2=Sturmfels, authorlink2=Bernd Sturmfels, title=Combinatorial Commutative Algebra, series=
Graduate Texts in Mathematics Graduate Texts in Mathematics (GTM) (ISSN 0072-5285) is a series of graduate-level textbooks in mathematics published by Springer-Verlag. The books in this series, like the other Springer-Verlag mathematics series, are yellow books of a standard s ...
, volume=227, publisher=
Springer-Verlag Springer Science+Business Media, commonly known as Springer, is a German multinational publishing company of books, e-books and peer-reviewed journals in science, humanities, technical and medical (STM) publishing. Originally founded in 1842 in ...
, location=New York, NY, year= 2005, isbn=0-387-22356-8, at=Ch. 5 ''Alexander Duality'' Algebraic topology Duality theories