On the number of periodic orbits in billiards with flat points
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hdl:2117/360853
Document typeMaster thesis
Date2022-01
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Abstract
A billiard is a map that describes the motion of a ball without mass in a closed region on the plane such that the collisions with the boundary are elastic. The region where the ball moves is the billiard table. In this thesis, we present the convex billiards (the boundary of the billiard table is a convex Jordan curve of class $C^2$) and some of their properties. In particular, we will study caustics which are curves that often appear in the billiard problem and they are related with rotational invariant curves (RIC). Lazutkin and Douady proved that convex billiards have caustics if all points of the boundary have curvature strictly positive and the boundary has 6 continuous derivatives. Guktin and Katok, under the hypothesis of Lazutkin and Douady, give estimations of the size of the regions free of caustics contained inside the billiard table. Mather proves the non existence of caustics if there is a flat point in the boundary and Hubacher proves the non existence of caustics close to the boundary if the second derivative of the boundary is not continuous. Finally we do a numerical study about symmetric periodic orbits with odd period and we expose a conjecture that relates the number of symmetric periodic orbits with its period.
SubjectsDifferentiable dynamical systems, Ergodic theory, Sistemes dinàmics diferenciables, Teoria ergòdica
DegreeMÀSTER UNIVERSITARI EN MATEMÀTICA AVANÇADA I ENGINYERIA MATEMÀTICA (Pla 2010)
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