Lyapunov exponents for random products of non-negative matrices

Abstract

We first study i.i.d. products of finitely many invertible 2 × 2 matrices with positive entries, and prove that the top Lyapunov exponent admits an explicit, rapidly convergent Neumann-series-type representation involving an infinite matrix. We further show that non-negative invertible 2 × 2 matrices are simultaneously conjugate to positive matrices if and only if ``generalized'' heteroclinic connections do not occur among products of length at most 2. These results yield a series formula for the Hausdorff dimension of the intersection of the middle-nth Cantor set with a random translate of itself, for every natural number n except 4. Furthermore, our method applies to the intersection of thick Cantor sets under random translation. We also determine the almost sure growth rate of i.i.d. three-term recurrences with finitely many positive coefficients.