Nonconventional Random Matrix Products (1803.09221v3)

Abstract: Let $\xi_1,\xi_2,...$ be independent identically distributed random variables and $F:\bbR^\ell\to SL_d(\bbR)$ be a Borel measurable matrix-valued function. Set $X_n=F(\xi_{q_1(n)},\xi_{q_2(n)},...,\xi_{q_\ell(n)})$ where $0\leq q_1<q_2<...<q_\ell$ are increasing functions taking on integer values on integers. We study the asymptotic behavior as $N\to\infty$ of the singular values of the random matrix product $\Pi_N=X_N\cdots X_2X_1$ and show, in particular, that (under certain conditions) $\frac 1N\log|\Pi_N|$ converges with probability one as $N\to\infty$. We also obtain similar results for such products when $\xi_i$ form a Markov chain. The essential difference from the usual setting appears since the sequence $(X_n)$ is long-range dependent and nonstationary.