Eberhard, W.; Freiling, G.; Schneider, A. On the distribution of the eigenvalues of a class of indefinite eigenvalue problems. (English) Zbl 0736.34071 Differ. Integral Equ. 3, No. 6, 1167-1179 (1990). The authors consider boundary eigenvalue problems of the form \[ y^{(n)}(x)+\sum^ n_{\nu=2}f_ \nu(x)y^{(n-\nu)}(x)=\lambda r(x)y(x)\qquad (x\in[0,1]), \]\[ U_{\nu0}(y)+U_{\nu1}(y)=0\qquad (\nu=1,2,\dots,n), \] where \(n\geq 2\), the coefficients \(f_ \nu\) belong to \(L_ 1(0,1)\), \(r:[0,1]\to\mathbb{R}\backslash\{0\}\) is a step function, and the two-point boundary conditions are assumed to be normalized. For such indefinite problems the authors introduce the notion of regularity which, in a natural way, generalizes that of Birkhoff regularity concerning definite problems. For such regular boundary value problems the authors determine the asymptotic distribution of the eigenvalues. For special problems concerning second order differential equations \((n=2)\) similar results have been proved by R. E. Langer [Trans. Am. Math. Soc. 31, 1-24 (1929)] and A. B. Mingarelli [Lect. Notes Math. 1032, 375-383 (1983; Zbl 0563.34022)]. Reviewer: R.Mennicken (Regensburg) Cited in 13 Documents MSC: 34L10 Eigenfunctions, eigenfunction expansions, completeness of eigenfunctions of ordinary differential operators 34L20 Asymptotic distribution of eigenvalues, asymptotic theory of eigenfunctions for ordinary differential operators Keywords:eigenfunction expansions; boundary eigenvalue problems; Birkhoff regularity; asymptotic distribution of the eigenvalues; indefinite problems Citations:Zbl 0563.34022 PDFBibTeX XMLCite \textit{W. Eberhard} et al., Differ. Integral Equ. 3, No. 6, 1167--1179 (1990; Zbl 0736.34071)