0 Infinite Random Matrices and Ergodic Measures

Finiteness of ergodic unitarily invariant measures on spaces of infinite matrices

The main result of this note, Theorem 2, is the following: a Borel measure on the space of infinite Hermitian matrices, that is invariant under the action of the infinite unitary group and that admits welldefined projections onto the quotient space of “corners” of finite size, must be finite. A similar result, Theorem 1, is also established for unitarily invariant measures on the space of all i...

INFINITE RANDOM MATRICES AND ERGODIC MEASURESAlexei Borodin and Grigori

Infinite Products of Random Matrices and Repeated Interaction Dynamics

Let Ψn be a product of n independent, identically distributed random matrices M , with the properties that Ψn is bounded in n, and that M has a deterministic (constant) invariant vector. Assuming that the probability of M having only the simple eigenvalue 1 on the unit circle does not vanish, we show that Ψn is the sum of a fluctuating and a decaying process. The latter converges to zero almost...

Infinite determinantal measures

Infinite determinantal measures introduced in this note are inductive limits of determinantal measures on an exhausting family of subsets of the phase space. Alternatively, an infinite determinantal measure can be described as a product of a determinantal point process and a convergent, but not integrable, multiplicative functional. Theorem 2, the main result announced in this note, gives an ex...

The Asymptotic Growth Rate of Random Fibonacci Type Sequences

Estimating the growth rate of random Fibonacci-type sequences is both challenging and fascinating. In this paper, by using ergodic theory, we prove a new result in this area. Let a denote an infinite sequence of natural numbers {a1, a2, · · · } and define a random Fibonaccitype sequence by f−1 = 0, f0 = 1, a0 = 0, and fk = 2fk−1 + 2fk−2 for k ≥ 1. Then, for almost all such infinite sequences a,...