Krull intersection theorem for Jacobson radical: Difference between revisions

This article defines a result where the base ring (or one or more of the rings involved) is Noetherian
View more results involving Noetherianness or Read a survey article on applying Noetherianness

This fact is an application of the following pivotal fact/result/idea: Krull intersection theorem for modules
View other applications of Krull intersection theorem for modules OR Read a survey article on applying Krull intersection theorem for modules

This fact is an application of the following pivotal fact/result/idea: Nakayama's lemma
View other applications of Nakayama's lemma OR Read a survey article on applying Nakayama's lemma

Statement

Let ${\displaystyle R}$ be a Noetherian ring and ${\displaystyle I}$ an ideal contained inside the Jacobson radical of ${\displaystyle R}$. Then, we have:

${\displaystyle {\displaystyle \bigcap _{j=1}^{\mathrm{\infty }}}{I}^j=0}$

In particular, when ${\displaystyle R}$ is a local ring, then the above holds for any proper ideal ${\displaystyle I}$.

Proof

Applying the Krull intersection theorem for modules

We apply the Krull intersection theorem for modules, which states that if ${\displaystyle R}$ is a Noetherian ring and ${\displaystyle M}$ is a finitely generated module over ${\displaystyle R}$, and ${\displaystyle I}$ is an ideal in ${\displaystyle R}$, we have:

${\displaystyle I({\displaystyle \bigcap _{j=1}^{\mathrm{\infty }}}{I}^{j}M)={\displaystyle \bigcap _{j=1}^{\mathrm{\infty }}}{I}^{j}M}$

We apply it to the case ${\displaystyle M=R}$. We thus get:

${\displaystyle I({\displaystyle \bigcap _{j=1}^{\mathrm{\infty }}}{I}^j)={\displaystyle \bigcap _{j=1}^{\mathrm{\infty }}}{I}^j}$

Applying Nakayama's lemma

Consider the ideal ${\displaystyle N={\displaystyle \bigcap _{j=1}^{\mathrm{\infty }}}{I}^j}$ as a ${\displaystyle R}$-module. Since ${\displaystyle IN=N}$, and ${\displaystyle I}$ is contained in the Jacobson radical of ${\displaystyle R}$, Nakayama's lemma tells us that ${\displaystyle N=0}$. This is precisely what we want.