Essential spectrum of non-self-adjoint singular matrix differential operators

Abstract

The purpose of this paper is to study the essential spectrum of non-self-adjoint singular matrix differential operators in the Hilbert space L2(R) L2(R) induced by matrix differential expressions of the form alignabstract:mdo (arraycc τ11(\,·\,,D) & τ12(\,·\,,D)\\[3.5ex] τ21(\,·\,,D) & τ22(\,·\,,D) array), align where τ11, τ12, τ21, τ22 are respectively m-th, n-th, k-th and 0 order ordinary differential expressions with m=n+k being even. Under suitable assumptions on their coefficients, we establish an analytic description of the essential spectrum. It turns out that the points of the essential spectrum either have a local origin, which can be traced to points where the ellipticity in the sense of Douglis and Nirenberg breaks down, or they are caused by singularity at infinity.