which turn out to be a continuous function from (0,oo) onto the interval [\sqrt{(3/5)},\sqrt6] and which satisfies the equation \lambda(4x) = \lambda(x). this function is used to represent s(x) as a logarithmic Fourier series:

Where a(x) is an explicit bounded function of the digits of x to the base 4, which extends a(k) to the set of positive reals. The series (1) is shown to converge for almost all positive real numbers; in particular, it converges for all x > 0 which are normal to the base 4. It turns out that \lambda(x) is non-differentiable on this same set. This is then used to show that the Dirichlet series \eta(\tau) = sum_{n = 1}^ooa(n)n^-\tau has a meromorphic continuation to the whole complex plane with infinitely many poles. Finally, \lambda(x) is used to prove that the sequence \left{\frac{s(n)}{\sqrt n}\right}_{n \geq 1} has a logarithmic sistribution function on the interval [\sqrt{(3/5)},\sqrt6], but that the cumulative distribution function to this sequence does not exist.
Classif.:  * 11B83 Special sequences of integers and polynomials
                   11K65 Arithmetic functions (probabilistic number theory)
                   11K16 Normal numbers, etc.
                   11A63 Radix representation
Keywords:  Rudin-Shapiro sums; binary representations; Fourier series; Dirichlet series; logarithmic distribution
Citations:  Zbl.371.10009

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