Follow the fugitive: an application of the method of images to open systems

Cristadoro, Giampaolo; Knight, Georgie; Esposti, Mirko Degli

doi:10.1088/1751-8113/46/27/272001

Cited by 10 publications

(25 citation statements)

References 47 publications

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“…Note that this method requires m ≤ n. If m > n, one could move to a larger refined alphabet, but this would entail an exponential growth of the size of the matrix representation. A better way of representing L op for small holes was devised by Cristadoro, Knight and Degli Esposti [CKDE13]. The remainder of this subsection summarises the relevant results when adapted to the arithmetic special flow situation; a more detailed account can be found in [Dre15, Kapitel 7.1.1].…”

Section: Higher Order Asymptoticsmentioning

confidence: 99%

“…Continuing in the setting of the previous subsection, one considers a sequence of shrinking holes. The corresponding ideas in [CKDE13] are adapted to accommodate the shape of the underlying special flow. Fix a periodic point x = (x 1 , x 2 , .…”

Section: Shrinking Holesmentioning

confidence: 99%

“…The idea for obtaining an approximation of the zero describing the escape rate that was laid out at the end of the previous subsection will be carried out. In contrast to [CKDE13], the argument will be carried out rigorously and ultimately yield a little-o statement regarding the quality of the approximation.…”

Section: Shrinking Holesmentioning

confidence: 99%

“…Finally, the most restrictive setting is used in Section 7 where the base transformation is required to be a Markov shift on a finite alphabet and the ceiling function is required to be constant on cylinder sets of a certain length. In this section, the results of Cristadoro, Knight and Degli Esposti [CKDE13] are expanded upon in order to prove higher order asymptotics for the escape rate of shrinking holes (Theorems 7.8 and 7.9). This also allows one to recover information about the orbit lengths of periodic points purely by considering escape rates and the measure of shrinking holes.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Escape rates for special flows and their higher order asymptotics

Dreher¹,

Kesseböhmer²

2017

Ergod. Th. Dynam. Sys.

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In this paper escape rates and local escape rates for special flows are sudied. In a general context the first result is that the escape rate depends monotonically on the ceiling function and fulfils certain scaling, invariance, and continuity properties. For the metric setting local escape rates are considered. If the base transformation is ergodic and exhibits an exponential convergence in probability of ergodic sums, then the local escape rate with respect to the flow is just the local escape rate with respect to the base transformation, divided by the integral of the ceiling function. Also a reformulation with respect to induced pressure is presented. Finally, under additional regularity conditions higher order asymptotics for the local escape rate are established.

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Section: Higher Order Asymptoticsmentioning

confidence: 99%

Section: Shrinking Holesmentioning

confidence: 99%

Section: Shrinking Holesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Escape rates for special flows and their higher order asymptotics

Dreher¹,

Kesseböhmer²

2017

Ergod. Th. Dynam. Sys.

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“…5,7,8,13 Indeed, if a set A contains a periodic orbit of period n, then l(A \ T n A) is the probability to return to A rather than to hit A for the first time at the moment n. Clearly, lðAÞ ¼ lðH n ðAÞÞ þ lðR n ðAÞÞ, where R n ðAÞ ¼ fx : x 2 A; T n x 2 Ag. Therefore, the faster the orbits return to A, the less the first hitting probability will be.…”

Section: Hierarchy Of the First Passage Probabilities For Chaotimentioning

confidence: 99%

Some new surprises in chaos

Bunimovich

Vela-Arevalo

2015

Chaos: An Interdisciplinary Journal of Nonlinear Science

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"Chaos is found in greatest abundance wherever order is being sought.It always defeats order, because it is better organized"Terry PratchettA brief review is presented of some recent findings in the theory of chaotic dynamics. We also prove a statement that could be naturally considered as a dual one to the Poincaré theorem on recurrences. Numerical results demonstrate that some parts of the phase space of chaotic systems are more likely to be visited earlier than other parts. A new class of chaotic focusing billiards is discussed that clearly violates the main condition considered to be necessary for chaos in focusing billiards.

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Entropy continuity for interval maps with holes

Bandtlow

Rugh

2017

Ergod. Th. Dynam. Sys.

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Abstract. We study the dependence of the topological entropy of piecewise monotonic maps with holes under perturbations, for example sliding a hole of fixed size at uniform speed or expanding a hole at a uniform rate. We show that under suitable conditions the topological entropy varies locally Hölder continuously with the local Hölder exponent depending itself on the value of the topological entropy.

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Follow the fugitive: an application of the method of images to open systems

Cited by 10 publications

References 47 publications

Escape rates for special flows and their higher order asymptotics

Escape rates for special flows and their higher order asymptotics

Some new surprises in chaos

Entropy continuity for interval maps with holes

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