Non universality for the variance of the number of real roots of random trigonometric polynomials

Abstract

In this article, we consider the following family of random trigonometric polynomials pn(t,Y)=Σk=1n Yk,1 (kt)+Yk,2(kt) for a given sequence of i.i.d. random variables \Yk,1,Yk,2\k 1 which are centered and standardized. We set N([0,π],Y) the number of real roots over [0,π] and N([0,π],G) the corresponding quantity when the coefficients follow a standard Gaussian distribution. We prove under a Doeblin's condition on the distribution of the coefficients that n∞Var(Nn([0,π],Y))n =n∞Var(Nn([0,π],G))n +130(E(Y1,14)-3). The latter establishes that the behavior of the variance is not universal and depends on the distribution of the underlying coefficients through their kurtosis. Actually, a more general result is proven in this article, which does not require that the coefficients are identically distributed. The proof mixes a recent result regarding Edgeworth's expansions for distribution norms established in arXiv:1606.01629 with the celebrated Kac-Rice formula.