Laurent polynomial ring: Difference between revisions

Latest revision as of 01:51, 4 July 2012

Definition

Let $R$ be a commutative unital ring. The Laurent polynomial ring over $R$ with indeterminate $x$ is denoted $R[x,x^{-1}]$ and can be defined as follows:

It is the ring whose elements are $R$ -linear combinations of powers of $x$ , where the exponents are allowed to be integers. Addition is coordinate-wise and multiplication is defined $R$ -linearly so that on powers of $x$ it is defined by adding the exponents.
It is the localization of $R[x]$ at the multiplicatively closed subset of powers of $x$ .
It is the ring described as $R[x,y]/(xy-1)$ .

Particular cases

If $K$ is a field, the Laurent polynomial ring $K[x,x^{-1}]$ is an intermediate subring between the polynomial ring $K[x]$ and the field of rational functions $K(x)$ .

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 # It is the [[localization at a multiplicatively closed subset|localization]] of <math>R[x]</math> at the multiplicatively closed subset of powers of <math>x</math>.
 # It is the ring described as <math>R[x,y]/(xy - 1)</math>.
+==Particular cases==
+* If <math>K</math> is a field, the Laurent polynomial ring <math>K[x,x^{-1}]</math> is an intermediate subring between the polynomial ring <math>K[x]</math> and the [[field of rational functions]] <math>K(x)</math>.