arXiv:1806.02216 Abstract | arXiv Analytics

arXiv:1806.02216 [math.PR]Abstract References Reviews Resources

On the approaching time towards the attractor of differential equations perturbed by small noise

Published 2018-06-06Version 1

We estimate the time a point or set, respectively, requires to approach the attractor of a radially symmetric gradient type stochastic differential equation driven by small noise. Here, both of these times tend to infinity as the noise gets small. However, the rates at which they go to infinity differ significantly. In the case of a set approaching the attractor, we use large deviation techniques to show that this time increases exponentially. In the case of a point approaching the attractor, we apply a time change and compare the accelerated process to another process and obtain that this time increases merely linearly.

Comments: 18 pages

Categories: math.PR, math.DS

Subjects: 37G35, 37H99, 60F10, 60H10

Keywords: small noise, symmetric gradient type stochastic, approaching time, gradient type stochastic differential equation, type stochastic differential equation driven

Related articles: Most relevant | Search more

arXiv:1808.04171 [math.PR] (Published 2018-08-13)

Exponential loss of memory for the 2-dimensional Allen-Cahn equation with small noise

Pavlos Tsatsoulis, Hendrik Weber

arXiv:1512.04436 [math.PR] (Published 2015-12-14)

Small noise and long time phase diffusion in stochastic limit cycle oscillators

Giambattista Giacomin, Christophe Poquet, Assaf Shapira

arXiv:2207.12037 [math.PR] (Published 2022-07-25, updated 2022-08-09)