CNCS Center for Nonlinear and Complex Systems
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Publications [#248435] of Stephen W. Teitsworth

Papers Published

  1. Dannenberg, PH; Neu, JC; Teitsworth, SW, Steering most probable escape paths by varying relative noise intensities., Physical Review Letters, vol. 113 no. 2 (July, 2014), pp. 020601, American Physical Society, ISSN 0031-9007 [doi]
    (last updated on 2019/10/16)

    We demonstrate the possibility to systematically steer the most probable escape paths (MPEPs) by adjusting relative noise intensities in dynamical systems that exhibit noise-induced escape from a metastable point via a saddle point. With the use of a geometric minimum action approach, an asymptotic theory is developed that is broadly applicable to fast-slow systems and shows the important role played by the nullcline associated with the fast variable in locating the MPEPs. A two-dimensional quadratic system is presented which permits analytical determination of both the MPEPs and associated action values. Analytical predictions agree with computed MPEPs, and both are numerically confirmed by constructing prehistory distributions directly from the underlying stochastic differential equation.