Convergence of Hill's method for nonselfadjoint operators
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Date
2012
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Society for Industrial and Applied Mathematics
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Abstract
By the introduction of a generalized Evans function defined by an appropriate 2- modified Fredholm determinant, we give a simple proof of convergence in location and multiplicity of Hill's method for numerical approximation of spectra of periodic-coefficient ordinary differential operators. Our results apply to operators of nondegenerate type under the condition that the principal coefficient matrix be symmetric positive definite (automatically satisfied in the scalar case). Notably, this includes a large class of non-self-adjoint operators which previously had not been treated in a simple way. The case of general coefficients depends on an interesting operator-theoretic question regarding properties of Toeplitz matrices
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Evans function, Floquet-Bloch decomposition, Fredholm determinant, Hill's method, Periodic-coefficient operators, Coefficient matrix, Differential operators, Fredholm, Non-self-adjoint, Numerical approximations, Symmetric positive definite, Toeplitz matrices, Matrix algebra, Mathematical operators
Citation
Johnson, M. A., & Zumbrun, K. (2012). Convergence of Hill's method for nonselfadjoint operators. SIAM Journal on Numerical Analysis, 50(1), 64-78. http://dx.doi.org/10.1137/100809349
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© 2012 Society for Industrial and Applied Mathematics
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Article