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Fundamental solutions for a class of equations with several singular coefficients

Published online by Cambridge University Press:  09 April 2009

R. J. Weinacht
R. J. Weinacht
Affiliation:
Oak Ridge National Laboratory Oak Ridge, Tennessee and University of Delaware Newark, Delaware
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This paper is concerned with a class of singular elliptic partial differential equations related to the operator of Weinstein's generalized axially symmetric potential theory (GASPT) [1, 2] which has numerous applications.

Type
Research Article
Information
Journal of the Australian Mathematical Society , Volume 8 , Issue 3 , August 1968 , pp. 575 - 583
Copyright
Copyright © Australian Mathematical Society 1968

References

[1]Weinstein, A., ‘Discontinuous integrals and generalized potential theory’, Trans. Am. Math. Soc. 63 (1948), 342354.Google Scholar
[2]Weinstein, A., ‘Generalized axially symmetric potential theory’, Bull. Am. Math. Soc. 59 (1953), 2038.CrossRefGoogle Scholar
[3]Weinacht, R. J., ‘Fundamental solutions for a class of singular equations’, Contributions to Differential Equations 3 (1964), 4355.Google Scholar
[4]Weinstein, A., Some applications of generalized axially symmetric potential theory to continuum mechanics (Proceedings of the Internat. Symposium on Applications of the Theory of Functions to Continuum Mechanics (09 1963), Vol. 2, Scientific Publishers, Moscow, 1965).Google Scholar
[5]Weinstein, A., Singular partial differential equations (Symposium of Institute for Fluid Dynamics and Applied Mathematics, University of Maryland; Gordon and Breach, New York, 1963).Google Scholar
[6]Kapilevich, M. B., ‘On the theory of linear differential equations with two perpendicular parabolic lines’, Dokl. Akad. Nauk SSSR 125 (1959), 251254.Google Scholar
[7]Kapilevich, M. B., ‘On the theory of degenerate elliptic differential equations of Bessel's class’, Dokl. Akad. Nauk SSSR 125 (1959), 719722.Google Scholar
[8]Gilbert, R. P., ‘Integral operator methods in hi-axially symmetric potential theory’, Contributions to Differential Equations 2 (1963), 441456.Google Scholar
[9]Gilbert, R. P. and Howard, H. C., ‘On solutions of the generalized hi-axially symmetric Helmholtz equation generated by integral operators’, J. Reine Angew. Math. 218 (1965) 109120.Google Scholar
[10]Stelimacher, K. L., ‘Eine Klasse huyghenscher Differentialgleichungen und ihre Integration’, Math. Annalen 130 (1955) 219233.CrossRefGoogle Scholar
[11]Lagnese, J. E., ‘The fundamental solution and Huygens' principle for decomposable differential operators’, Arch. Rational Mech. Anal. 19 (1965), 299307.Google Scholar
[12]Fox, D. W., ‘The solution and Huygens' Principle for a singular Cauchy problem’, J. Math, and Mech. 8 (1959), 197219.Google Scholar
[13]Copson, E. T. and Erdélyi, A., ‘On a partial differential equation with two singular lines’, Arch. Rational Mech. Anal. 2 (1958), 7686.CrossRefGoogle Scholar
[14]John, F., ‘The fundamental solution of linear elliptic differential equations with analytic coefficients’, Comm. Pure Appl. Math. 3 (1950), 273304.CrossRefGoogle Scholar
[15]Magnus, W. and Oberhettinger, F., Formulas and theorems for the special functions of mathematical physics (Chelsea, New York 1949).Google Scholar
[16]Diaz, J. B. and Weinstein, A., On the fundamental solutions of a singular Beltrami Operator (Studies in Mathematics and Mechanics presented to R. V. Mises, Academic Press New York, 1954, pp. 98102).Google Scholar
[17]John, F., Plane waves and spherical means applied to partial differential equations (Tract 2, Interscience, New York-London, 1955).Google Scholar
[18]Appell, P. and Férriet, J. Kampé de, Fonctions hyper géométriques et hypersphériques, Polynomes d'Hermite (Gauthier-Vilars, Paris, 1926).Google Scholar
[19]Weinacht, R. J., ‘Fundamental solutions for elliptic equations with several singular lines’, Notices Amer. Math. Soc. 12 (1965), 578579.Google Scholar
[20]Keldysh, M. V., ‘On certain cases of degeneration of equations of elliptic type on the boundary of a domain’, Doklady Akad. Nauk SSSR 77 (1951), 181183.Google Scholar