Ideals as Generalized Prime Ideal Factorization of Submodules


Abstract


For a submodule N of an R-module M, a unique product of prime ideals in R is assigned, which is called the generalized prime ideal factorization of N in M, and denoted as {\mathcal{P}}_M(N). But for a product of prime ideals {{{\mathfrak{p}}_1} \cdots {{\mathfrak{p}}_{n}}} in R and an R-module M, there may not exist a submodule N in M with {\mathcal{P}}_{M}(N) = {{{\mathfrak{p}}_1} \cdots {{\mathfrak{p}}_{n}}}. In this article, for an arbitrary product of prime ideals {{{\mathfrak{p}}_1} \cdots {{\mathfrak{p}}_{n}}} and a module M, we find conditions for the existence of submodules in M having {{{\mathfrak{p}}_1} \cdots {{\mathfrak{p}}_{n}}} as their generalized prime ideal factorization

DOI Code: 10.1285/i15900932v44n1p13

Keywords: prime submodule; prime filtration; Noetherian ring; prime ideal factorization; regular prime extension filtration

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