abstract algebra In mathematics, more specifically algebra, abstract algebra or modern algebra is the study of algebraic structures, which are set (mathematics), sets with specific operation (mathematics), operations acting on their elements. Algebraic structur ...

, a module is indecomposable if it is non-zero and cannot be written as a

direct sum The direct sum is an operation between structures in abstract algebra, a branch of mathematics. It is defined differently but analogously for different kinds of structures. As an example, the direct sum of two abelian groups A and B is anothe ...

of two non-zero submodules. Indecomposable is a weaker notion than simple module (which is also sometimes called irreducible module): simple means "no proper submodule" , while indecomposable "not expressible as ". A direct sum of indecomposables is called completely decomposable; this is weaker than being semisimple, which is a direct sum of simple modules. A direct sum decomposition of a module into indecomposable modules is called an indecomposable decomposition.

Motivation

In many situations, all modules of interest are completely decomposable; the indecomposable modules can then be thought of as the "basic building blocks", the only objects that need to be studied. This is the case for modules over a field or PID, and underlies Jordan normal form of operators.

Examples

Field

Modules over fields are

vector space In mathematics and physics, a vector space (also called a linear space) is a set (mathematics), set whose elements, often called vector (mathematics and physics), ''vectors'', can be added together and multiplied ("scaled") by numbers called sc ...

s. A vector space is indecomposable if and only if its

dimension In physics and mathematics, the dimension of a mathematical space (or object) is informally defined as the minimum number of coordinates needed to specify any point within it. Thus, a line has a dimension of one (1D) because only one coo ...

is 1. So every vector space is completely decomposable (indeed, semisimple), with infinitely many summands if the dimension is infinite.

Principal ideal domain

Finitely-generated modules over

principal ideal domain In mathematics, a principal ideal domain, or PID, is an integral domain (that is, a non-zero commutative ring without nonzero zero divisors) in which every ideal is principal (that is, is formed by the multiples of a single element). Some author ...

s (PIDs) are classified by the structure theorem for finitely generated modules over a principal ideal domain: the primary decomposition is a decomposition into indecomposable modules, so every finitely-generated module over a PID is completely decomposable. Explicitly, the modules of the form ''R''/''p''^''n'' for prime ideals ''p'' (including , which yields ''R'') are indecomposable. Every finitely-generated ''R''-module is a direct sum of these. Note that this is simple if and only if (or ); for example, the cyclic group of order 4, Z/4, is indecomposable but not simple – it has the subgroup 2Z/4 of order 2, but this does not have a complement. Over the

integer An integer is the number zero (0), a positive natural number (1, 2, 3, ...), or the negation of a positive natural number (−1, −2, −3, ...). The negations or additive inverses of the positive natural numbers are referred to as negative in ...

s Z, modules are abelian groups. A finitely-generated abelian group is indecomposable if and only if it is

isomorphic 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 ...

to Z or to a factor group of the form Z/''p''^''n''Z for some

prime number A prime number (or a prime) is a natural number greater than 1 that is not a Product (mathematics), product of two smaller natural numbers. A natural number greater than 1 that is not prime is called a composite number. For example, 5 is prime ...

''p'' and some positive integer ''n''. Every finitely-generated abelian group is a

of (finitely many) indecomposable abelian groups. There are, however, other indecomposable abelian groups which are not finitely generated; examples are 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 Q and the Prüfer ''p''-groups Z(''p''^∞) for any prime number ''p''. For a fixed positive integer ''n'', consider the ring ''R'' of ''n''-by-''n'' matrices with entries from the

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 (or from any other field ''K''). Then ''K''^''n'' is a left ''R''-module (the scalar multiplication is matrix multiplication). This is up to

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 ...

the only indecomposable module over ''R''. Every left ''R''-module is a direct sum of (finitely or infinitely many) copies of this module ''K''^''n''.

Facts

Every simple module is indecomposable. The converse is not true in general, as is shown by the second example above. By looking at the endomorphism ring of a module, one can tell whether the module is indecomposable: if and only if the endomorphism ring does not contain an idempotent element different from 0 and 1. (If ''f'' is such an idempotent endomorphism of ''M'', then ''M'' is the direct sum of ker(''f'') and im(''f'').) A module of finite

length Length is a measure of distance. In the International System of Quantities, length is a quantity with Dimension (physical quantity), dimension distance. In most systems of measurement a Base unit (measurement), base unit for length is chosen, ...

is indecomposable if and only if its endomorphism ring is

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. Still more information about endomorphisms of finite-length indecomposables is provided by the Fitting lemma. In the finite-length situation, decomposition into indecomposables is particularly useful, because of the Krull–Schmidt theorem: every finite-length module can be written as a direct sum of finitely many indecomposable modules, and this decomposition is essentially unique (meaning that if you have a different decomposition into indecomposables, then the summands of the first decomposition can be paired off with the summands of the second decomposition so that the members of each pair are isomorphic).

Citations

References

* * {{DEFAULTSORT:Indecomposable Module Module theory