Translation invariant linear spaces of polynomials

Abstract

A set of polynomials M is called a submodule of C [x1, …, xn ] if M is a translation invariant linear subspace of C [x1, …, xn ]. We present a description of the submodules of C [x,y] in terms of a special type of submodules. We say that the submodule M of C [x,y] is an L-module of order s if, whenever F(x,y)=Σn=0N fn (x) · yn ∈ M is such that f0 =… = fs-1=0, then F=0. We show that the proper submodules of C [x,y] are the sums Md +M, where Md =\ F∈ C [x,y] degx F <d\, and M is an L-module. We give a construction of L-modules parametrized by sequences of complex numbers. A submodule M⊂eq C [x1, …, xn ] is decomposable if it is the sum of finitely many proper submodules of M. Otherwise M is indecomposable. It is easy to see that every submodule of C [x1, …, xn] is the sum of finitely many indecomposable submodules. In C [x,y] every indecomposable submodule is either an L-module or equals Md for some d. In the other direction we show that Md is indecomposable for every d, and so is every L-module of order 1. Finally, we prove that there exists a submodule of C [x,y] (in fact, an L-module of order 1) which is not relatively closed in C [x,y]. This answers a problem posed by L. Sz\'ekelyhidi in 2011.