Abstract
In this paper, the class of complex Borel measures μ, satisfying μ(−E) = μ(E) for every Borel set E ⊂ ℝ, such that the functions f μ,λ, λ > 0, defined by $$f_{\mu,\lambda}(z)=\int_{-\infty}^{\infty}{\rm exp}(-{\lambda\over 2} t^2 + izt)\ d\mu(t)$$ , have only real zeros, is completely determined. It is done by establishing a general theorem (Theorem 1.3) on the asymptotic behavior of the zero-distribution of f μλ} for λ → ∞. The theorem is applied to the Riemann ξ-function.
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