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We study a class of planar billiards having the remarkable property that their phase space consists up to a set of zero measure of two invariant sets formed by orbits moving in opposite directions. The tables of these billiards are tubular…

Dynamical Systems · Mathematics 2009-11-13 Leonid A. Bunimovich , Gianluigi Del Magno

It is known that the dynamics of planar billiards satisfies strong mixing properties (e.g. exponential decay of correlations) provided that some expansion condition on unstable curves is satisfied. This condition has been shown to always…

Dynamical Systems · Mathematics 2013-01-01 Jacopo De Simoi , Imre Péter Tóth

The complexity of the billiard language of regular polygons in the hyperbolic plane with $p$ sides and $2\pi/q$ internal angles is known to grow exponentially and the exponential growth rate is known to equal the topological entropy of the…

Dynamical Systems · Mathematics 2026-05-15 Sunrose T. Shrestha , Jane Wang

Following recent work of Chernov, Markarian, and Zhang, it is known that the billiard map for dispersing billiards with zero angle cusps has slow decay of correlations with rate 1/n. Since the collisions inside a cusp occur in quick…

Dynamical Systems · Mathematics 2014-12-09 Péter Bálint , Ian Melbourne

The billiard problem concerns a point particle moving freely in a region of the horizontal plane bounded by a closed curve $\Gamma$, and reflected at each impact with $\Gamma$. The region is called a `billiard', and the reflections are…

Classical Physics · Physics 2020-01-08 Peter Lynch

We compute the decay of the velocity autocorrelation function, the Lyapunov exponent and the diffusion constant for the Sinai billiard within the framework of dynamical zeta functions. The asymptotic decay of the velocity autocorrelation…

chao-dyn · Physics 2008-02-03 Per Dahlqvist

We call a system bouncing ball billiard if it consists of a particle that is subjected to a constant vertical force and bounces inelastically on a one-dimendional vibrating periodically corrugated floor. Here we choose circular scatterers…

Chaotic Dynamics · Physics 2007-05-23 L. Matyas , R. Klages

We use the relation between the volumes of the strata of meromorphic quadratic differentials with at most simple poles on the Riemann sphere and counting functions of the number of (bands of) closed geodesics in associated flat metrics with…

Dynamical Systems · Mathematics 2016-11-24 Jayadev S. Athreya , Alex Eskin , Anton Zorich

The dynamics of a system consisting of many spherical hard particles can be described as a single point particle moving in a high-dimensional space with fixed hypercylindrical scatterers with specific orientations and positions. In this…

Chaotic Dynamics · Physics 2009-11-11 Astrid S. de Wijn

This work results from our attempts to solve Boltzmann-Sinai's hypothesis about the ergodicity of hard ball gases. A crucial element in the studies of the dynamics of hard balls is the analysis of special hypersurfaces in the phase space…

Dynamical Systems · Mathematics 2010-08-12 N. Chernov , N. Simanyi

We present analytical and numerical solutions of the Lippmann-Schwinger equation for the scattered wavefunctions generated by confocal parabolic billiards and parabolic segments with various $\delta$-type potential-strength functions. The…

Quantum Physics · Physics 2024-03-14 Alberto Ruiz-Biestro , Julio C. Gutierrez-Vega

The exact computation of the nearest-neighbor spacing distribution P(s) is performed for a rectangular billiard with point-like scatterer inside for periodic and Dirichlet boundary conditions and it is demonstrated that for large s this…

Chaotic Dynamics · Physics 2009-11-07 E. Bogomolny , O. Giraud , C. Schmit

Classical transport in a doubly connected polygonal billiard, i.e. the annulus square billiard, is considered. Dynamical properties of the billiard flow with a fixed initial direction are analyzed by means of the moments of arbitrary order…

Chaotic Dynamics · Physics 2015-05-19 Laura Rebuzzini , Roberto Artuso

The changeover from normal to super diffusion in time dependent billiards is explained analytically. The unlimited energy growth for an ensemble of bouncing particles in time dependent billiards is obtained by means of a two dimensional…

Chaotic Dynamics · Physics 2018-06-13 Matheus Hansen , David Ciro , Iberê L. Caldas , Edson D. Leonel

We discuss various experiments on the time decay of velocity autocorrelation functions in billiards. We perform new experiments and find results which are compatible with an exponential mixing hypothesis, first put forward by [FM]: they do…

chao-dyn · Physics 2008-10-08 Garrido Pedro , Gallavotti Giovanni

We consider classical billiards on surfaces of constant curvature, where the charged billiard ball is exposed to a homogeneous, stationary magnetic field perpendicular to the surface. We establish sufficient conditions for hyperbolicity of…

Chaotic Dynamics · Physics 2009-10-31 Boris Gutkin

We propose a flower shape billiard in order to study the irregular parameter dependence of chaotic normal diffusion. Our model is an open system consisting of periodically distributed obstacles of flower shape, and it is strongly chaotic…

Chaotic Dynamics · Physics 2009-11-07 Takahisa Harayama , Rainer Klages , Pierre Gaspard

The standard Wojtkowski-Markarian-Donnay-Bunimovich technique for the hyperbolicity of focusing or mixed billiards in the plane requires the diameter of a billiard table to be of the same order as the largest ray of curvature along the…

Dynamical Systems · Mathematics 2008-10-15 Luca Bussolari , Marco Lenci

We revisit a time-dependent, oval-shaped billiard to investigate a phase transition from bounded to unbounded energy growth. In the static case, the phase space exhibits a mixed structure. The chaotic sea in the static scenario leads to…

We study periodic infinite billiards in the plane. We show that for rational models, some particular obstacles can be added periodically, so that the billiard flow in the resulting table is recurrent in almost every direction.

Dynamical Systems · Mathematics 2024-03-13 Chen Frenkel