Pointwise Convergence of Dyadic Partial Sums of Almost Periodic Fourier Series

Abstract

It is a classical result that dyadic partial sums of the Fourier series of functions f ∈ Lp(T) converge almost everywhere for p ∈ (1, ∞). In 1968, E. A. Bredihina established an analogous result for functions belonging to the Stepanov space of almost periodic functions S2 whose Fourier exponents satisfy a natural separation condition. Here, the maximal operator corresponding to dyadic partial summation of almost periodic Fourier series is bounded on the Stepanov spaces S2k, k ∈ N for functions satisfying the same condition; Bredihina's result follows as a consequence. In the process of establishing these bounds, some general results are obtained which will facilitate further work on operator bounds and convergence issues in Stepanov spaces. These include a boundedness theorem for the Hilbert transform and a theorem of Littlewood--Paley type. An improvement of "S2k, k ∈ N" to "Sp, p ∈ (1, ∞)" is also seen to follow from a natural conjecture on the boundedness of the Hilbert transform.