On the maximal correlation of some stochastic processes

We consider the maximal correlation coefficient $R(X,Y)$ between two stochastic processes $X$ and $Y$. When $(X,Y)$ is a random walk, the result is a consequence of Cs\'{a}ki-Fischer identity and lower-semi continuity of $\text{Law}(X,Y)\to R(X,Y)$. When $(X,Y)$ are two-dimensional L\'{e}vy processes, we give an expression of $R(X,Y)$ via the covariance $\Sigma$ and the L\'{e}vy measure $\nu$ appeared in the L\'{e}vy-Khinchine formula. As a consequence, for two-dimensional $\alpha$-stable random variables $(X,Y)$ with $0<\alpha<2$, we give an expression of $R(X,Y)$ via the spectral measure of the $\alpha$-stable distribution. We also prove analogs and generalizations of Dembo-Kagan-Shepp-Yu inequality and Madiman-Barron inequality. Roughly speaking, we investigate the maximal correlation coefficient between two random selected ``subvectors'' $Y$ and $Z$ of a common random vector $X$. Besides, by using above new results, we recover several classical results.