On the real zeros of random trigonometric polynomials with dependent coefficients

Abstract

We consider random trigonometric polynomials of the form \[ fn(t):=Σ1 k n ak (kt) + bk (kt), \] whose entries (ak)k 1 and (bk)k 1 are given by two independent stationary Gaussian processes with the same correlation function . Under mild assumptions on the spectral function associated with , we prove that the expectation of the number Nn([0,2π]) of real roots of fn in the interval [0,2π] satisfies \[ n +∞ E [Nn([0,2π])]n = 23. \] The latter result not only covers the well-known situation of independent coefficients but allow us to deal with long range correlations. In particular it englobes the case where the random coefficients are given by a fractional Brownian noise with any Hurst parameter.