Scaling Theory for Noisy Period-Doubling Transitions to Chaos
- 6 April 1981
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 46 (14) , 935-939
- https://doi.org/10.1103/physrevlett.46.935
Abstract
The effect of noise on systems which undergo period-doubling transitions to chaos is studied. With the aid of nonequilibrium field-theoretic techniques, a correlation-function expression for the Lyapunov parameter (which describes the sensitivity of the system to initial conditions) is derived and shown to satisfy a scaling theory. Since these transitions have previously been shown to exhibit universal behavior, this theory predicts universal effects for the noise. These predictions are in good agreement with numerical experiments.Keywords
This publication has 12 references indexed in Scilit:
- Scaling Behavior of Chaotic FlowsPhysical Review Letters, 1980
- UNE EXPERIENCE DE RAYLEIGH-BENARD DE GEOMETRIE REDUITE ; MULTIPLICATION, ACCROCHAGE ET DEMULTIPLICATION DE FREQUENCESLe Journal de Physique Colloques, 1980
- The onset spectrum of turbulencePhysics Letters A, 1979
- The universal metric properties of nonlinear transformationsJournal of Statistical Physics, 1979
- Quantum aspects of classical and statistical fieldsPhysical Review A, 1979
- Quantitative universality for a class of nonlinear transformationsJournal of Statistical Physics, 1978
- The functional formalism of classical statistical dynamicsJournal of Physics A: General Physics, 1977
- On a Lagrangean for classical field dynamics and renormalization group calculations of dynamical critical propertiesZeitschrift für Physik B Condensed Matter, 1976
- Further application of the Martin, Siggia, Rose formalismJournal of Physics A: General Physics, 1976
- Statistical Dynamics of Classical SystemsPhysical Review A, 1973