2022
DOI: 10.1016/j.jde.2021.12.008
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Almost sure rates of mixing for partially hyperbolic attractors

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Cited by 11 publications
(30 citation statements)
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“…unimodel maps admit a random tower extension, and obtained almost sure rates of mixing (decay of correlations). Results in this directions were also obtained later by several authors [1,6,7,8,19]. In [41] the author proved an almost sure invarinace principle (ASIP) for random Young towers.…”
Section: Introductionmentioning
confidence: 57%
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“…unimodel maps admit a random tower extension, and obtained almost sure rates of mixing (decay of correlations). Results in this directions were also obtained later by several authors [1,6,7,8,19]. In [41] the author proved an almost sure invarinace principle (ASIP) for random Young towers.…”
Section: Introductionmentioning
confidence: 57%
“…Therefore, there is a constant c > 0 so that, P -a.s. when n is large enough we can partition L it,n ω into at least cn blocks so that the norm of the odd blocks does not exceed B J , while the norm of the even blocks does not exceed 1 2 B J (we can take c = P (V )/2s). Therefore, P -a.s. for any n large enough we have…”
Section: Assumption (I)mentioning
confidence: 99%
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“…We emphasize that, compared with the precise class of expanding on average random dynamical systems introduced in [12], we only need the additional mild assumption that the map ω → T ω has a countable range: this is to ensure that we can apply a suitable version of the multiplicative ergodic theorem [24]. 2 We note that there are previous works devoted to limit theorems for random dynamical system that allow contracting behavior on large measure sets [1], but only under the condition that the family (T ω ) ω∈Ω only takes finitely many values (and assuming that (Ω, F , P, σ) is a Bernoulli shift),or don't require the presence of a uniform decay of correlations, such as the work of Kifer [39] (partially inspired by the work of Cogburn [14]) as well as the first author and Hafouta [21]. Roughly speaking, the main idea in those papers is to pass to the associated induced system, where the inducing is done with respect to the region of Ω on which one has the uniform decay of correlations.…”
Section: Main Contributions Of the Present Papermentioning
confidence: 99%
“…Indeed, those are key tools to model many natural phenomena, including the transport in complex environments such as in the ocean or the atmosphere [3]: it is therefore crucial to understand their long term quantitative behavior. Among many remarkable contributions, we particularly emphasize those dealing with the decay of correlations [2,6,7,9,12,15], various (quenched or annealed) limit laws [1,4,16,17,18,19,20,30,31,32,39,43,44,48], as well as recent results devoted to the linear response of random dynamical systems [8,23,47]. For similar results in the closely related context of sequential dynamical systems, we refer to [10,11,33,35,36,37,29,42] and references therein.…”
Section: Introductionmentioning
confidence: 98%