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Scaling laws for the bifurcation-escape rate in a nanomechanical resonator

We report on experimental and theoretical studies of the fluctuation-induced escape time from a metastable state of a nanomechanical Duffing resonator in cryogenic environment. By tuning in situ the non-linear coefficient $γ$ we could explore a wide range of the parameter space around the bifurcation point, where the metastable state becomes unstable. We measured in a relaxation process the distribution of the escape times. We have been able to verify its exponential distribution and extract the escape rate $Γ$. We investigated the scaling of $Γ$ with respect to the distance to the bifurcation point and $γ$, finding an unprecedented quantitative agreement with the theoretical description of the stochastic problem. Simple power scaling laws turn out to hold in a large region of the parameter's space, as anticipated by recent theoretical predictions. These unique findings, implemented in a model dynamical system, are relevant to all systems experiencing under-damped saddle-node bifurcation.

preprint2015arXivOpen access
Martial DefoortVadim PullerOlivier BourgeoisFabio PistolesiEddy Collin
cond-mat.mes-hall
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Martial DefoortVadim PullerOlivier BourgeoisFabio PistolesiEddy Collin

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