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In this note we establish the existence of a (n+1)-periodic billiard trajectory inside an n-dimensional regular simplex in the hyperbolic space, which hits the interior of every facet exactly once.

Dynamical Systems · Mathematics 2013-02-27 Oded Badt , Yaron Ostrover

Mathematical billiards is much like the real game: a point mass, representing the ball, rolls in a straight line on a (perfectly friction-less) table, striking the sides according to the law of reflection. A billiard trajectory is then…

Dynamical Systems · Mathematics 2024-10-28 Hongjia H. Chen , Hinke M. Osinga

A periodic orbit on a frictionless billiard table is a piecewise linear path of a billiard ball that begins and ends at the same point with the same angle of incidence. The period of a primitive periodic orbit is the number of times the…

Dynamical Systems · Mathematics 2021-04-08 Benjamin R. Baer , Faheem Gilani , Zhigang Han , Ronald Umble

We classify the periodic digit strings which arise from periodic billiard orbits on the four convex $n$-gons $\Delta$ which tile $\mathbb{R}^2$ under reflection, answering problem a posed by Baxter and Umble. $\Delta$ is either an…

Dynamical Systems · Mathematics 2015-12-22 Corey Manack , Marko Savic

We give lower bound on the number of periodic billiard trajectories inside a generic smooth strictly convex closed surface in 3-space: for odd n, there are at least 2(n-1) such trajectories. We apply a topological approach based on the…

Differential Geometry · Mathematics 2007-05-23 Michael Farber , Serge Tabachnikov

Consider the regular $n$-simplex $\Delta_n$ - it is formed by the convex-hull of $n+1$ points in Euclidean space, with each pair of points being in distance exactly one from each other. We prove an exact bound on the width of $\Delta_n$…

Computational Geometry · Computer Science 2023-01-09 Sariel Har-Peled , Eliot W. Robson

We study length-minimizing closed generalized Euclidean billiard trajectories in convex bodies in $\mathbb{R}^n$ and investigate their relation to the inclusion minimal affine sections that contain these trajectories. We show that when…

Dynamical Systems · Mathematics 2022-09-22 Daniel Rudolf , Stefan Krupp

We consider billiard trajectories in a smooth convex body in $\mathbb R^d$ and estimate the number of distinct periodic trajectories that make exactly $p$ reflections per period at the boundary of the body. In the case of prime $p$ we…

Algebraic Topology · Mathematics 2011-07-06 R. N. Karasev

We consider the billiard map inside a polyhedron. We give a condition for the stability of the periodic trajectories. We apply this result to the case of the tetrahedron. We deduce the existence of an open set of tetrahedra which have a…

Dynamical Systems · Mathematics 2011-04-07 Nicolas Bedaride

A polygon is called rational if the angle between each pair of sides is a rational multiple of $\pi.$ The main theorem we will prove is Theorem 1: For rational polygons, periodic points of the billiard flow are dense in the phase space of…

Dynamical Systems · Mathematics 2016-09-06 Michael Boshernitzan , G. A. Galperin , Tyll Krüger , Serge Troubetzkoy

We classify nonsingular symmetric periodic trajectories (SPTs) of billiards inside ellipsoids of R^{n+1} without any symmetry of revolution. SPTs are defined as periodic trajectories passing through some symmetry set. We prove that there…

Dynamical Systems · Mathematics 2015-05-04 Pablo S. Casas , Rafael Ramírez-Ros

In this paper outer, or dual, billiards outside regular polygons are studied; in particular, periodic points for cases of strictly convex "tables" and for regular n-gons with n = 3,4,6,8,12 are discussed. The main results of the paper are:…

Dynamical Systems · Mathematics 2017-11-27 Filipp Rukhovich

There is an open set of right triangles such that for each irrational triangle in this set (i) periodic billiards orbits are dense in the phase space, (ii) there is a unique nonsingular perpendicular billiard orbit which is not periodic,…

Dynamical Systems · Mathematics 2009-06-15 Serge Troubetzkoy

We study periodic linear trajectories in the double pentagon and periodic billiard trajectories in the regular pentagon.

Dynamical Systems · Mathematics 2015-03-18 Diana Davis , Dmitry Fuchs , Serge Tabachnikov

In any periodic direction on the regular pentagon billiard table, there exists two combinatorially different billiard paths, with one longer than the other. For each periodic direction, McMullen asked if one could determine whether the…

Dynamical Systems · Mathematics 2021-11-19 Samuel Everett , Vanessa Lin , Aidan Mager

We obtain an upper bound of the number of collisions of any billiard trajectory in a polyhedral angle in terms of the minimal eigenvalue of a positive definite matrix which characterizes the angle. Elements of the matrix are scalar products…

Dynamical Systems · Mathematics 2007-05-23 Lizhou Chen

We generalize the following simple geometric fact: the only centrally symmetric convex curve of constant width is a circle. Billiard interpretation of the condition of constant width reads: a planar curve has constant width, if and only if,…

Dynamical Systems · Mathematics 2022-03-30 Misha Bialy , Daniel Tsodikovich

We give an optical physicist view of the problem of the trajectories in a polygonal billiard using only basic facts of Optics and the theory of functions of a complex variable. This approach allow us to stablish a certain correspondence…

General Mathematics · Mathematics 2015-07-24 Eduardo Díaz-Miguel

Revised version: some minor errors and typos fixed; exposition watered. Abstract: To a trajectory of a billiard in parallelogram we assign its symbolic trajectory - the sequence of numbers of coordinate plane, to which the faces met by the…

chao-dyn · Physics 2009-10-22 Yuliy Baryshnikov

We introduce symplectic billiards for pairs of possibly non-convex polygons. After establishing basic properties, we give several criteria on pairs of polygons for the symplectic billiard map to be fully periodic, i.e. $\textit{every}$…

Dynamical Systems · Mathematics 2024-02-20 Peter Albers , Fabian Lander , Jannik M. Westermann
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