Paper detail

Concentration et randomisation universelle de sous-espaces propres

We develop a theory of multidimensional randomization in Lebesgue spaces $L^p$ with the aid of Kahane-Khintchine-Marcus-Pisier inequalities. More precisely, we obtain a result in the spirit of Maurey-Pisier's theorem which involves random matrices and proves that the multidimensional randomization is universal in $L^p$. Then, we deal with the question of studying necessary and sufficient conditions to get the almost sure convergence in $L^p$ of random linear combinations of eigenfunctions in a compact Riemannian manifold (the famous Paley-Zygmund theorem gives the answer for tori). We introduce a new method which solves the problem if the considered eigenfunctions have some concentration property. We give several applications like the almost sure $L^p$ convergence for compact manifolds, spherical harmonics and the harmonic oscillator. We also get probabilistic Sobolev embeddings in the sense of Burq and Lebeau and we obtain global solutions for the supercritical cubic wave equation on a boundaryless compact $3$-manifold.