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{{redirect|Bicomplex|the type of number|Bicomplex number}}
 
In [[mathematics]], '''chain complex''' and '''cochain complex''' are constructs originally used in the field of [[algebraic topology]]. They are algebraic means of representing the relationships between the [[cycle (algebraic topology)|cycle]]s and [[boundary (algebraic topology)|boundaries]] in various dimensions of a [[topological space]]. More generally, [[homological algebra]] includes the study of chain complexes in the abstract, without any reference to an underlying space. In this case, chain complexes are studied axiomatically as [[algebraic structure]]s.
 
Applications of chain complexes usually define and apply their [[homology group]]s ([[cohomology group]]s for cochain complexes); in more abstract settings various equivalence relations are applied to complexes (for example starting with the [[chain homotopy]] idea). Chain complexes are easily defined in [[abelian categories]], also.
 
==Formal definition==
A '''chain complex''' <math>(A_\bullet, d_\bullet)</math> is a sequence of [[abelian group]]s or [[module (mathematics)|modules]] ... ''A''<sub>2</sub>, ''A''<sub>1</sub>, ''A''<sub>0</sub>, ''A''<sub>-1</sub>, ''A''<sub>-2</sub>, ... connected by [[homomorphism]]s (called '''boundary operators''') ''d''<sub>''n''</sub> : ''A''<sub>''n''</sub>→''A''<sub>''n''&minus;1</sub>, such that the composition of any two consecutive maps is zero: ''d''<sub>''n''</sub> ∘ ''d''<sub>''n''+1</sub> = 0 for all ''n''. They are usually written out as:
 
::<math>\cdots \to
A_{n+1} \xrightarrow{d_{n+1}} A_n \xrightarrow{d_n} A_{n-1} \xrightarrow{d_{n-1}} A_{n-2} \to
\cdots  \xrightarrow{d_2} A_1 \xrightarrow{d_1}
A_0 \xrightarrow{d_0} A_{-1} \xrightarrow{d_{-1}} A_{-2} \xrightarrow{d_{-2}}
\cdots
</math>
 
A variant on the concept of chain complex is that of ''cochain complex''. A '''cochain complex''' <math>(A^\bullet, d^\bullet)</math> is a sequence of [[abelian group]]s or [[module (mathematics)|modules]] ..., <math>A^{- 2}</math>, <math>A^{- 1}</math>, <math>A^0</math>, <math>A^1</math>, <math>A^2</math>, ... connected by [[homomorphism]]s <math>d^n\colon A^n \to A^{n + 1}</math> such that the composition of any two consecutive maps is zero: <math>d^{n + 1} d^n = 0</math> for all ''n'':
 
::<math>
\cdots \to
A^{-2} \xrightarrow{d^{-2}}
A^{-1} \xrightarrow{d^{-1}}
A^0 \xrightarrow{d^0}
A^1 \xrightarrow{d^1}
A^2 \to \cdots \to
A^{n-1} \xrightarrow{d^{n-1}}
A^n \xrightarrow{d^n}
A^{n+1} \to \cdots.</math>
 
The index <math>n</math> in either <math>A_n</math> or <math>A^n</math> is referred to as the '''degree''' (or '''dimension'''). The only difference in the definitions of chain and cochain complexes is that, in chain complexes, the boundary operators decrease dimension, whereas in cochain complexes they increase dimension.
 
A '''bounded chain complex''' is one in which [[almost all]] the ''A''<sub>''i''</sub> are 0; ''i.e.'', a finite complex extended to the left and right by 0's. An example is the complex defining the [[homology theory]] of a (finite) [[simplicial complex]]. A chain complex is '''bounded above''' if all degrees above some fixed degree ''N'' are 0, and is '''bounded below''' if all degrees below some fixed degree are 0. Clearly, a complex is bounded both above and below [[if and only if]] the complex is bounded.
 
Leaving out the indices, the basic relation on ''d'' can be thought of as
 
::<math>d d = 0.</math>
 
The elements of the individual groups of a chain complex are called '''chains''' (or '''cochains''' in the case of a cochain complex.)  The [[image (mathematics)|image]] of ''d'' is the group of '''boundaries''', or in a cochain complex, '''coboundaries'''. The [[kernel (algebra)|kernel]] of ''d'' (i.e., the subgroup sent to 0 by ''d'') is the group of '''cycles''', or in the case of a cochain complex, '''cocycles'''.  From the basic relation, the (co)boundaries lie inside the (co)cycles. This phenomenon is studied in a systematic way using ([[cohomology|co]])[[homology group]]s.
 
===Chain maps and tensor product===
There is a natural notion of a [[morphism]] between chain complexes called a ''chain map''. Given two complexes ''M<sub>*</sub>'' and ''N<sub>*</sub>'', a chain map between the two is a series of homomorphisms from ''M<sub>i</sub>'' to ''N<sub>i</sub>'' such that the entire diagram involving the boundary maps of ''M'' and ''N'' commutes. Chain complexes with chain maps form a [[category (mathematics)|category]].
 
If ''V'' = ''V''<sub>*</sub> and ''W'' = ''W''<sub>*</sub> are chain complexes, their tensor product <math> V \otimes W </math> is a chain complex with degree ''i'' elements given by
:<math> (V \otimes W)_i = \bigoplus_{\{j,k|j+k=i\}} V_j \otimes W_k </math>
 
and differential given by
: <math> \partial (a \otimes b) = \partial a \otimes b + (-1)^{|a|} a \otimes \partial b </math>
where ''a'' and ''b'' are any two homogeneous vectors in ''V'' and ''W'' respectively, and <math> |a| </math> denotes the degree of ''a''.
 
This tensor product makes the category <math>\text{Ch}_K</math> (for any commutative ring ''K'') of chain complexes of ''K''-modules into a [[symmetric monoidal category]]. The identity object with respect to this monoidal product is the base ring ''K'' viewed as a chain complex in degree 0. The [[braided monoidal category|braiding]] is given on simple tensors of homogeneous elements by
:<math> a \otimes b \mapsto (-1)^{|a||b|} b \otimes a </math>. 
The sign is necessary for the braiding to be a chain map. Moreover, the category of chain complexes of ''K''-modules also has [[closed monoidal category|internal Hom]]: given chain complexes ''V'' and ''W'', the internal Hom of ''V'' and ''W'', denoted hom(''V'',''W'') is the chain complex with degree ''n'' elements given by <math>\Pi_{i}\text{Hom}_K (V_i,W_{i+n})</math> and differential given by
: <math> (\partial f)(v) = \partial(f(v)) - (-1)^{|f|} f(\partial(v)) </math>
We have a natural isomorphism
:<math>\text{Hom}(A\otimes B, C) \cong \text{Hom}(A,\text{hom}(B,C))</math>
 
==Examples==
 
===Singular homology===
{{main|Singular homology}}
Suppose we are given a [[topological space]] ''X''.
 
Define ''C''<sub>''n''</sub>(''X'') for [[Natural number|natural]] ''n'' to be the [[free abelian group]] formally generated by [[singular homology|singular n-simplices]] in ''X'', and define the boundary map
 
::<math>\partial_n: C_n(X) \to C_{n-1}(X): \, (\sigma: [v_0,\ldots,v_n] \to X) \mapsto
(\partial_n \sigma = \sum_{i=0}^n (-1)^i \sigma([v_0,\ldots, \hat v_i, \ldots, v_n]),</math>
 
where the hat denotes the omission of a [[vertex (geometry)|vertex]]. That is, the boundary of a singular simplex is alternating sum of restrictions to its faces. It can be shown ∂² = 0, so <math>(C_\bullet, \partial_\bullet)</math> is a chain complex; the ''[[singular homology]]'' <math>H_\bullet(X)</math> is the homology of this complex; that is,  
 
::<math>H_n(X) = \ker \partial_n / \mbox{im } \partial_{n+1}.</math>
 
===de Rham cohomology===
{{main|de Rham cohomology}}
The differential ''k''-forms on any [[smooth manifold]] ''M'' form an [[abelian group]] (in fact an '''[[real number|R]]'''-[[vector space]]) called Ω<sup>''k''</sup>(''M'') under [[addition]].
The [[exterior derivative]] ''d''<sub>''k''</sub> maps Ω<sup>''k''</sup>(''M'') to Ω<sup>''k''+1</sup>(''M''), and ''d''<sup> 2</sup> = 0 follows essentially from [[symmetry of second derivatives]], so the [[vector space]]s of ''k''-forms along with the exterior derivative are a cochain complex:
 
:<math> \Omega^0(M)\ \stackrel{d_0}{\to}\ \Omega^1(M) \to \Omega^2(M) \to \Omega^3(M) \to \cdots.</math>
 
The homology of this complex is the ''de Rham cohomology''
 
:<math>H^0_{\mathrm{DR}}(M, F) = \ker d_0 =</math> {locally [[constant function]]s on ''M'' with values in ''F''} <math>\cong F</math><sup>#{connected pieces of ''M''}</sup>
 
:<math>H^k_{\mathrm{DR}}(M) = \ker d_k / \mathrm{im} \, d_{k-1}.</math>
 
==Chain maps==
A '''chain map''' ''f'' between two chain complexes <math>(A_\bullet, d_{A,\bullet})</math> and <math>(B_\bullet, d_{B,\bullet})</math> is a sequence <math>f_\bullet</math> of [[module (mathematics)|module homomorphisms]] <math>f_n : A_n \rightarrow B_n</math> for each ''n'' that commutes with the boundary operators on the two chain complexes: <math> d_{B,n} \circ f_n = f_{n-1} \circ d_{A,n}</math>. Such a map sends cycles to cycles and boundaries to boundaries, and thus descends to a map on homology:<math>(f_\bullet)_*:H_\bullet(A_\bullet, d_{A,\bullet}) \rightarrow H_\bullet(B_\bullet, d_{B,\bullet})</math>.
 
A continuous map of topological spaces induces chain maps in both the singular and de Rham chain complexes described above (and in general for the chain complex defining any [[homology theory]] of topological spaces) and thus a continuous map induces a map on homology. Because the map induced on a composition of maps is the composition of the induced maps, these homology theories are [[functor]]s from the category of topological spaces with continuous maps to the category of abelian groups with group homomorphisms.
 
It is worth noticing that the concept of chain map reduces to the one of boundary through the construction of the [[Mapping cone (homological algebra)|cone]] of a chain map.
 
==Chain homotopy==
{{expand section|date=April 2012}}
Chain homotopies give an important equivalence relation between chain maps. Chain homotopic chain maps induce the same maps on homology groups. A particular case is that homotopic maps between two spaces ''X'' and ''Y'' induce the same maps from homology of ''X'' to homology of ''Y''. Chain homotopies have a geometric interpretation; it is described, for example, in the book of Bott and Tu. See [[Homotopy category of chain complexes]] for further information.
 
==See also==
* [[Differential graded algebra]]
* [[Differential graded Lie algebra]]
* [[Dold–Kan correspondence]] says there is an equivalence between the category of chain complexes and the category of [[simplicial abelian group]]s.
 
==References==
* {{Citation | last1=Bott | first1=Raoul | author1-link=Raoul Bott | last2=Tu | first2=Loring W. | title=Differential Forms in Algebraic Topology | publisher=[[Springer-Verlag]] | location=Berlin, New York | isbn=978-0-387-90613-3 | year=1982}}
 
[[Category:Homological algebra]]
[[Category:Differential topology]]

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In mathematics, chain complex and cochain complex are constructs originally used in the field of algebraic topology. They are algebraic means of representing the relationships between the cycles and boundaries in various dimensions of a topological space. More generally, homological algebra includes the study of chain complexes in the abstract, without any reference to an underlying space. In this case, chain complexes are studied axiomatically as algebraic structures.

Applications of chain complexes usually define and apply their homology groups (cohomology groups for cochain complexes); in more abstract settings various equivalence relations are applied to complexes (for example starting with the chain homotopy idea). Chain complexes are easily defined in abelian categories, also.

Formal definition

A chain complex (A,d) is a sequence of abelian groups or modules ... A2, A1, A0, A-1, A-2, ... connected by homomorphisms (called boundary operators) dn : AnAn−1, such that the composition of any two consecutive maps is zero: dndn+1 = 0 for all n. They are usually written out as:

An+1dn+1AndnAn1dn1An2d2A1d1A0d0A1d1A2d2

A variant on the concept of chain complex is that of cochain complex. A cochain complex (A,d) is a sequence of abelian groups or modules ..., A2, A1, A0, A1, A2, ... connected by homomorphisms dn:AnAn+1 such that the composition of any two consecutive maps is zero: dn+1dn=0 for all n:

A2d2A1d1A0d0A1d1A2An1dn1AndnAn+1.

The index n in either An or An is referred to as the degree (or dimension). The only difference in the definitions of chain and cochain complexes is that, in chain complexes, the boundary operators decrease dimension, whereas in cochain complexes they increase dimension.

A bounded chain complex is one in which almost all the Ai are 0; i.e., a finite complex extended to the left and right by 0's. An example is the complex defining the homology theory of a (finite) simplicial complex. A chain complex is bounded above if all degrees above some fixed degree N are 0, and is bounded below if all degrees below some fixed degree are 0. Clearly, a complex is bounded both above and below if and only if the complex is bounded.

Leaving out the indices, the basic relation on d can be thought of as

dd=0.

The elements of the individual groups of a chain complex are called chains (or cochains in the case of a cochain complex.) The image of d is the group of boundaries, or in a cochain complex, coboundaries. The kernel of d (i.e., the subgroup sent to 0 by d) is the group of cycles, or in the case of a cochain complex, cocycles. From the basic relation, the (co)boundaries lie inside the (co)cycles. This phenomenon is studied in a systematic way using (co)homology groups.

Chain maps and tensor product

There is a natural notion of a morphism between chain complexes called a chain map. Given two complexes M* and N*, a chain map between the two is a series of homomorphisms from Mi to Ni such that the entire diagram involving the boundary maps of M and N commutes. Chain complexes with chain maps form a category.

If V = V* and W = W* are chain complexes, their tensor product VW is a chain complex with degree i elements given by

(VW)i={j,k|j+k=i}VjWk

and differential given by

(ab)=ab+(1)|a|ab

where a and b are any two homogeneous vectors in V and W respectively, and |a| denotes the degree of a.

This tensor product makes the category ChK (for any commutative ring K) of chain complexes of K-modules into a symmetric monoidal category. The identity object with respect to this monoidal product is the base ring K viewed as a chain complex in degree 0. The braiding is given on simple tensors of homogeneous elements by

ab(1)|a||b|ba.

The sign is necessary for the braiding to be a chain map. Moreover, the category of chain complexes of K-modules also has internal Hom: given chain complexes V and W, the internal Hom of V and W, denoted hom(V,W) is the chain complex with degree n elements given by ΠiHomK(Vi,Wi+n) and differential given by

(f)(v)=(f(v))(1)|f|f((v))

We have a natural isomorphism

Hom(AB,C)Hom(A,hom(B,C))

Examples

Singular homology

Mining Engineer (Excluding Oil ) Truman from Alma, loves to spend time knotting, largest property developers in singapore developers in singapore and stamp collecting. Recently had a family visit to Urnes Stave Church. Suppose we are given a topological space X.

Define Cn(X) for natural n to be the free abelian group formally generated by singular n-simplices in X, and define the boundary map

n:Cn(X)Cn1(X):(σ:[v0,,vn]X)(nσ=i=0n(1)iσ([v0,,v^i,,vn]),

where the hat denotes the omission of a vertex. That is, the boundary of a singular simplex is alternating sum of restrictions to its faces. It can be shown ∂² = 0, so (C,) is a chain complex; the singular homology H(X) is the homology of this complex; that is,

Hn(X)=kern/im n+1.

de Rham cohomology

Mining Engineer (Excluding Oil ) Truman from Alma, loves to spend time knotting, largest property developers in singapore developers in singapore and stamp collecting. Recently had a family visit to Urnes Stave Church. The differential k-forms on any smooth manifold M form an abelian group (in fact an R-vector space) called Ωk(M) under addition. The exterior derivative dk maps Ωk(M) to Ωk+1(M), and d 2 = 0 follows essentially from symmetry of second derivatives, so the vector spaces of k-forms along with the exterior derivative are a cochain complex:

Ω0(M)d0Ω1(M)Ω2(M)Ω3(M).

The homology of this complex is the de Rham cohomology

HDR0(M,F)=kerd0= {locally constant functions on M with values in F} F#{connected pieces of M}
HDRk(M)=kerdk/imdk1.

Chain maps

A chain map f between two chain complexes (A,dA,) and (B,dB,) is a sequence f of module homomorphisms fn:AnBn for each n that commutes with the boundary operators on the two chain complexes: dB,nfn=fn1dA,n. Such a map sends cycles to cycles and boundaries to boundaries, and thus descends to a map on homology:(f)*:H(A,dA,)H(B,dB,).

A continuous map of topological spaces induces chain maps in both the singular and de Rham chain complexes described above (and in general for the chain complex defining any homology theory of topological spaces) and thus a continuous map induces a map on homology. Because the map induced on a composition of maps is the composition of the induced maps, these homology theories are functors from the category of topological spaces with continuous maps to the category of abelian groups with group homomorphisms.

It is worth noticing that the concept of chain map reduces to the one of boundary through the construction of the cone of a chain map.

Chain homotopy

Template:Expand section Chain homotopies give an important equivalence relation between chain maps. Chain homotopic chain maps induce the same maps on homology groups. A particular case is that homotopic maps between two spaces X and Y induce the same maps from homology of X to homology of Y. Chain homotopies have a geometric interpretation; it is described, for example, in the book of Bott and Tu. See Homotopy category of chain complexes for further information.

See also

References

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