%ATalkner, P [Paul Scherrer Inst. (PSI), Villigen (Switzerland)]
%D1999
%I; Paul Scherrer Inst. (PSI), Villigen (Switzerland)
%J
%K66 PHYSICS, MARKOV PROCESS, NUMERICAL DATA, PERTURBATION THEORY, PROGRESS REPORT
%PMedium: ED; Size: pp. 94-95
%TSemi adiabatic theory of seasonal Markov processes
%XThe dynamics of many natural and technical systems are essentially influenced by a periodic forcing. Analytic solutions of the equations of motion for periodically driven systems are generally not known. Simulations, numerical solutions or in some limiting cases approximate analytic solutions represent the known approaches to study the dynamics of such systems. Besides the regime of weak periodic forces where linear response theory works, the limit of a slow driving force can often be treated analytically using an adiabatic approximation. For this approximation to hold all intrinsic processes must be fast on the time-scale of a period of the external driving force. We developed a perturbation theory for periodically driven Markovian systems that covers the adiabatic regime but also works if the system has a single slow mode that may even be slower than the driving force. We call it the semi adiabatic approximation. Some results of this approximation for a system exhibiting stochastic resonance which usually takes place within the semi adiabatic regime are indicated. (author) 1 fig., 8 refs.
%0Technical Report
Switzerland Journal ID: ISSN 1423-7342; Other: ON: DE99754426; TRN: CH99E0048 CH English