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A property of the zeros of a cross-product of Bessel functions

Published online by Cambridge University Press:  24 October 2008

D. M. Willis
Affiliation:
D.S.I.R. Radio Research Station, Ditton Park, Slough

Extract

In this note it is shown that any positive root of the transcendental equation

is definable as a continuous increasing function of the real variable ν, provided ν is positive. Here Jν and Yν denote respectively the Bessel functions of the first and second kind of order ν, and k is a positive constant. Watson ((4)) has established the corresponding result for the simpler equations Jν(z) = 0 and Jν(z) cosα − Yν(z) sinα = 0, where α is a constant. The extension of the result to the positive roots of equation (1) is important because this equation occurs quite frequently in physical problems.

Type
Research Article
Copyright
Copyright © Cambridge Philosophical Society 1965

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References

REFERENCES

(1)Fletcher, A., Miller, J. C. P., Rosenhead, L. and Comrie, L. J.An index of mathematical tables, vol. 1 (Scientific Computing Service; London, 1962).Google Scholar
(2)Gray, A., Mathews, G. B. and Macrobert, T. M.A treatise on Bessel functions and their applications to physics (Macmillan; London, 1922).Google Scholar
(3)McMahon, J.Ann. of Math. 9 (1895), 2330.CrossRefGoogle Scholar
(4)Watson, G. N.A treatise on the theory of Bessel functions (2nd ed.; Cambridge, 1944).Google Scholar