The motion of an overdamped particle in a bistable potential U(x), driven quasimonochromatic noise (high-frequency, narrow-band noise), has been investigated by means of analog simulation. The escape rate from one potential well to another was found to be exponentially small compared to the reciprocal mean first-passage time to the top of the potential barrier. The logarithm of the quasistationary probability distribution was observed to fall extremely sharply at a particular value of x, quite close to the equilibrium position. Theory describing the nonanalytic dependence of this logarithm on the bandwidth of the noise is presented and shown to be in good agreement with experiment. Data are also presented for a symmetric monostable potentia...
We investigate the escape rate of Brownian particles that move in a cubic metastable poten...
The currents generated by noise-induced activation processes in a periodic potential are investigate...
We evaluate the steady-state distribution and escape rate for an Active Ornstein-Uhlenbeck Particle ...
The motion of an overdamped particle in a bistable potential U(x), driven by quasimonochromatic nois...
The effects of Gaussian quasi-monochromatic (narrow-band) noise have been investigated with an analo...
The response of an overdamped system to quasi-monochromatic (high-frequency narrow band) noise (QMN)...
The response of an overdamped system to quasi-monochromatic (high-frequency narrow band) noise (QMN)...
The relative escape rate (RER) for Brownian particles in an asymmetric bistable sawtooth potential d...
The currents generated by noise-induced activation processes in a periodic potential are investigate...
An escape mechanism in a bistable system driven by colored noise of large but finite correlation tim...
An exact analytic expression of the relative escape rate (RER) for Brownian particles in a bistable ...
International audienceWe evaluate the steady-state distribution and escape rate for an Active Ornste...
For an overdamped particle evolving in a potential and submitted to colored noise, we study numerica...
How to find the (strongly non-Boltzmann) distribution in a far-from-equilibrium system is a problem ...
Noise-induced escape from the metastable part of a potential is considered on time scales preceding ...
We investigate the escape rate of Brownian particles that move in a cubic metastable poten...
The currents generated by noise-induced activation processes in a periodic potential are investigate...
We evaluate the steady-state distribution and escape rate for an Active Ornstein-Uhlenbeck Particle ...
The motion of an overdamped particle in a bistable potential U(x), driven by quasimonochromatic nois...
The effects of Gaussian quasi-monochromatic (narrow-band) noise have been investigated with an analo...
The response of an overdamped system to quasi-monochromatic (high-frequency narrow band) noise (QMN)...
The response of an overdamped system to quasi-monochromatic (high-frequency narrow band) noise (QMN)...
The relative escape rate (RER) for Brownian particles in an asymmetric bistable sawtooth potential d...
The currents generated by noise-induced activation processes in a periodic potential are investigate...
An escape mechanism in a bistable system driven by colored noise of large but finite correlation tim...
An exact analytic expression of the relative escape rate (RER) for Brownian particles in a bistable ...
International audienceWe evaluate the steady-state distribution and escape rate for an Active Ornste...
For an overdamped particle evolving in a potential and submitted to colored noise, we study numerica...
How to find the (strongly non-Boltzmann) distribution in a far-from-equilibrium system is a problem ...
Noise-induced escape from the metastable part of a potential is considered on time scales preceding ...
We investigate the escape rate of Brownian particles that move in a cubic metastable poten...
The currents generated by noise-induced activation processes in a periodic potential are investigate...
We evaluate the steady-state distribution and escape rate for an Active Ornstein-Uhlenbeck Particle ...