Random Fibonacci sequences
Copyright policy )Random Fibonacci sequences
Solutions to the random Fibonacci recurrence x_{n+1}=x_{n} + or - Bx_{n-1} decrease (increase) exponentially, x_{n} = exp(lambda n), for sufficiently small (large) B. In the limits B --> 0 and B --> infinity, we expand the Lyapunov exponent lambda(B) in powers of B and B^{-1}, respectively. For the classical case of $\beta=1$ we obtain exact non-perturbative results. In particular, an invariant measure associated with Ricatti variable r_n=x_{n+1}/x_{n} is shown to exhibit plateaux around all rational.
Comment: 11 Pages (Multi-Column); 3 EPS Figures ; Submitted to J. Phys. A
- Boston University United States
- UNIVERSITE FEDERALE DE TOULOUSE MIDI-PYRENEES France
- Boston College United States
- Boston University Brussels Belgium
- French National Centre for Scientific Research France
Perturbations, asymptotics of solutions to ordinary differential equations, [PHYS.COND.CM-SM] Physics [physics]/Condensed Matter [cond-mat]/Statistical Mechanics [cond-mat.stat-mech], Special processes, random sequences, expansion, Computational methods for ergodic theory (approximation of invariant measures, computation of Lyapunov exponents, entropy, etc.), one-dimensional electrons, recursive relation, Lyapunov exponent, Schrodinger equation, Condensed Matter - Statistical Mechanics
Perturbations, asymptotics of solutions to ordinary differential equations, [PHYS.COND.CM-SM] Physics [physics]/Condensed Matter [cond-mat]/Statistical Mechanics [cond-mat.stat-mech], Special processes, random sequences, expansion, Computational methods for ergodic theory (approximation of invariant measures, computation of Lyapunov exponents, entropy, etc.), one-dimensional electrons, recursive relation, Lyapunov exponent, Schrodinger equation, Condensed Matter - Statistical Mechanics
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