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Contributions to the theory of Ramanujan's function τ(n) and similar arithmetical functions

I. The zeros of the function on the line

Published online by Cambridge University Press:  24 October 2008

R. A. Rankin
R. A. Rankin
Affiliation:
Clare CollegeCambridge
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Extract

In this and the succeeding paper I solve two problems suggested by Prof. Hardy, namely (1) that of proving that Ramanujan's function

has no zeros on the line and (2) that of finding an asymptotic formula

where A is a constant. I also prove similar results concerning the coefficients of general modular forms. I am indebted to Prof. Hardy and Mr Ingham for various suggestions, and in particular to Mr Ingham's paper, “A note on Riemann's ζ-function and Dirichlet's L-functions”.

Type
Research Article
Information
Mathematical Proceedings of the Cambridge Philosophical Society , Volume 35 , Issue 3 , July 1939 , pp. 351 - 356
Copyright
Copyright © Cambridge Philosophical Society 1939

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References

* Ingham, A. E., J. London. Math. Soc. 5 (1929), 107–12.Google Scholar

Ramanujan, S., “On certain arithmetical functions”, Collected Papers (Cambridge, 1927), pp. 136–62,Google Scholar or Trans. Cambridge Phil. Soc. 22 (1916), 159–84.Google Scholar

Hardy, G. H., “Note on Ramanujan's function τ(n)”, Proc. Cambridge Phil. Soc. 23 (1927), 675–80.CrossRefGoogle Scholar

* Mordell, L. J., “On Ramanujan's empirical expansions of modular functions”, Proc. Cambridge Phil. Soc. 19 (1920), 117–24.Google Scholar

This functional equation appears to have been first stated by Wilton, J. R. in “A note on Ramanujan's arithmetical function τ(n)”, Proc. Cambridge Phil. Soc. 25 (1928), 121–9.CrossRefGoogle Scholar Wilton also proves functional equations for more general functions of the form

* Actually as I prove in my second paper.