Open Billiards: Invariant and Conditionally Invariant Probabilities on Cantor Sets

Billiards are the simplest models for understanding the statistical theory of the dynamics of a gas in a closed compartment. We analyze the dynamics of a class of billiards (the open billiard on the plane) in terms of invariant and conditionally invariant probabilities. The dynamical system has a ho...

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Veröffentlicht in:	SIAM journal on applied mathematics 1996-04, Vol.56 (2), p.651-680
Hauptverfasser:	Lopes, Artur, Markarian, Roberto
Format:	Artikel
Sprache:	eng
Schlagworte:	Algebraic conjugates Asymptotic stability Billiards Cantor set Eigenvalues and eigenfunctions Entropy Functions Gas dynamics Horseshoes Infinity Lebesgue measures Lyapunov methods Mathematical functions Mathematical models Probability Tangents Trajectories
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creator	Lopes, Artur Markarian, Roberto
description	Billiards are the simplest models for understanding the statistical theory of the dynamics of a gas in a closed compartment. We analyze the dynamics of a class of billiards (the open billiard on the plane) in terms of invariant and conditionally invariant probabilities. The dynamical system has a horseshoe structure. The stable and unstable manifolds are analytically described. The natural probability μ is invariant and has support in a Cantor set. This probability is the conditional limit of a conditional probability mFthat has a density with respect to the Lebesgue measure. A formula relating entropy, Lyapunov exponent, and Hausdorff dimension of a natural probability μ for the system is presented. The natural probability μ is a Gibbs state of a potential ψ (cohomologous to the potential associated to the positive Lyapunov exponent; see formula (0.1)), and we show that for a dense set of such billiards the potential ψ is not lattice. As the system has a horseshoe structure, one can compute the asymptotic growth rate of n(r), the number of closed trajectories with the largest eigenvalue of the derivative smaller than r. This theorem implies good properties for the poles of the associated Zeta function and this result turns out to be very important for the understanding of scattering quantum billiards.
doi_str_mv	10.1137/S0036139995279433
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We analyze the dynamics of a class of billiards (the open billiard on the plane) in terms of invariant and conditionally invariant probabilities. The dynamical system has a horseshoe structure. The stable and unstable manifolds are analytically described. The natural probability μ is invariant and has support in a Cantor set. This probability is the conditional limit of a conditional probability mFthat has a density with respect to the Lebesgue measure. A formula relating entropy, Lyapunov exponent, and Hausdorff dimension of a natural probability μ for the system is presented. The natural probability μ is a Gibbs state of a potential ψ (cohomologous to the potential associated to the positive Lyapunov exponent; see formula (0.1)), and we show that for a dense set of such billiards the potential ψ is not lattice. As the system has a horseshoe structure, one can compute the asymptotic growth rate of n(r), the number of closed trajectories with the largest eigenvalue of the derivative smaller than r. This theorem implies good properties for the poles of the associated Zeta function and this result turns out to be very important for the understanding of scattering quantum billiards.</description><identifier>ISSN: 0036-1399</identifier><identifier>DOI: 10.1137/S0036139995279433</identifier><language>eng</language><publisher>Society for Industrial and Applied Mathematics</publisher><subject>Algebraic conjugates ; Asymptotic stability ; Billiards ; Cantor set ; Eigenvalues and eigenfunctions ; Entropy ; Functions ; Gas dynamics ; Horseshoes ; Infinity ; Lebesgue measures ; Lyapunov methods ; Mathematical functions ; Mathematical models ; Probability ; Tangents ; Trajectories</subject><ispartof>SIAM journal on applied mathematics, 1996-04, Vol.56 (2), p.651-680</ispartof><rights>Copyright 1996 Society for Industrial and Applied Mathematics</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://www.jstor.org/stable/pdf/2102461$$EPDF$$P50$$Gjstor$$H</linktopdf><linktohtml>$$Uhttps://www.jstor.org/stable/2102461$$EHTML$$P50$$Gjstor$$H</linktohtml><link.rule.ids>314,777,781,800,829,27905,27906,57998,58002,58231,58235</link.rule.ids></links><search><creatorcontrib>Lopes, Artur</creatorcontrib><creatorcontrib>Markarian, Roberto</creatorcontrib><title>Open Billiards: Invariant and Conditionally Invariant Probabilities on Cantor Sets</title><title>SIAM journal on applied mathematics</title><description>Billiards are the simplest models for understanding the statistical theory of the dynamics of a gas in a closed compartment. We analyze the dynamics of a class of billiards (the open billiard on the plane) in terms of invariant and conditionally invariant probabilities. The dynamical system has a horseshoe structure. The stable and unstable manifolds are analytically described. The natural probability μ is invariant and has support in a Cantor set. This probability is the conditional limit of a conditional probability mFthat has a density with respect to the Lebesgue measure. A formula relating entropy, Lyapunov exponent, and Hausdorff dimension of a natural probability μ for the system is presented. The natural probability μ is a Gibbs state of a potential ψ (cohomologous to the potential associated to the positive Lyapunov exponent; see formula (0.1)), and we show that for a dense set of such billiards the potential ψ is not lattice. As the system has a horseshoe structure, one can compute the asymptotic growth rate of n(r), the number of closed trajectories with the largest eigenvalue of the derivative smaller than r. 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We analyze the dynamics of a class of billiards (the open billiard on the plane) in terms of invariant and conditionally invariant probabilities. The dynamical system has a horseshoe structure. The stable and unstable manifolds are analytically described. The natural probability μ is invariant and has support in a Cantor set. This probability is the conditional limit of a conditional probability mFthat has a density with respect to the Lebesgue measure. A formula relating entropy, Lyapunov exponent, and Hausdorff dimension of a natural probability μ for the system is presented. The natural probability μ is a Gibbs state of a potential ψ (cohomologous to the potential associated to the positive Lyapunov exponent; see formula (0.1)), and we show that for a dense set of such billiards the potential ψ is not lattice. As the system has a horseshoe structure, one can compute the asymptotic growth rate of n(r), the number of closed trajectories with the largest eigenvalue of the derivative smaller than r. This theorem implies good properties for the poles of the associated Zeta function and this result turns out to be very important for the understanding of scattering quantum billiards.</abstract><pub>Society for Industrial and Applied Mathematics</pub><doi>10.1137/S0036139995279433</doi><tpages>30</tpages></addata></record>
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subjects	Algebraic conjugates Asymptotic stability Billiards Cantor set Eigenvalues and eigenfunctions Entropy Functions Gas dynamics Horseshoes Infinity Lebesgue measures Lyapunov methods Mathematical functions Mathematical models Probability Tangents Trajectories
title	Open Billiards: Invariant and Conditionally Invariant Probabilities on Cantor Sets
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