Spectral parameter power series representation for solutions of linear system of two first order differential equations

Abstract

A representation in the form of spectral parameter power series (SPPS) is given for a general solution of a one dimension Dirac system containing arbitrary matrix coefficient at the spectral parameter, \[ B dYdx + P(x)Y = λR(x)Y,\] where Y=(y1,y2)T is the unknown vector-function, λ is the spectral parameter, B = pmatrix0 & 1 \\ -1 & 0pmatrix, and P is a symmetric 2× 2 matrix, R is an arbitrary 2× 2 matrix whose entries are integrable complex-valued functions. The coefficient functions in these series are obtained by recursively iterating a simple integration process, beginning with a non-vanishing solution for one particular λ= λ0. The existence of such solution is shown. For a general linear system of two first order differential equations \[ P(x)dYdx+Q(x)Y = λR(x)Y,\ x∈ [a,b], \] where P, Q, R are 2× 2 matrices whose entries are integrable complex-valued functions, P being invertible for every x, a transformation reducing it to a type considered above is shown. The general scheme of application of the SPPS representation to the solution of initial value and spectral problems as well as numerical illustrations are provided.