M\"untz ball polynomials and M\"untz spectral-Galerkin methods for singular eigenvalue problems

Abstract

In this paper, we introduce a new family of orthogonal systems, termed as the M\"untz ball polynomials (MBPs), which are orthogonal with respect to the weight function: \|x\|2θ+2μ-2 (1-\|x\|2θ)α with the parameters α>-1, μ>- 1/2 and θ>0 in the d-dimensional unit ball x∈ Bd=\x∈Rd: r=\|x\|≤1\. We then develop efficient and spectrally accurate MBP spectral-Galerkin methods for singular eigenvalue problems including degenerating elliptic problems with perturbed ellipticity and Schr\"odinger's operators with fractional potentials. We demonstrate that the use of such non-standard basis functions can not only tailor to the singularity of the solutions but also lead to sparse linear systems which can be solved efficiently.