The Discrete Eigenvalue Problem for Azimuthally Dependent Transport Theory - Concepedia

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The Discrete Eigenvalue Problem for Azimuthally Dependent Transport Theory

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1976

Year

J. Kenneth Shultis, T.R. Hill

Nuclear Science and Engineering

Spectral TheoryNumerical AnalysisEngineeringPhysicsFourier AnalysisHigh-frequency ApproximationPlane GeometryDispersion FunctionComputational ElectromagneticsGeometric Singular Perturbation TheoryFourier ExpansionDiscrete Eigenvalue ProblemIntegrable SystemHarmonic Space

Abstract

The discrete eigenvalue problem associated with the one-speed azimuthal Fourier harmonics in plane geometry is discussed. An explicit expression, well-suited to numerical evaluation, is given for the dispersion function, and the reality and maximum number of discrete eigenvalues are demonstrated. From numerical examples, it is found that quite often there are no discrete eigenvalues, particularly for the higher harmonics.