Realization of Integrable Hamiltonian Systems by Billiard Books

TL;DR

This paper explores how integrable Hamiltonian systems can be realized through billiard books, demonstrating topological equivalences and invariants, and applying algorithms to classical systems like the Euler system with a gyrostat.

Contribution

It provides a visual application of the Vedyushkina-Kharcheva algorithm to realize Liouville foliations via billiard books, and establishes topological stability and invariants for these systems.

Findings

Liouville foliation is realizable by billiard books.

The algorithm successfully models classical integrable systems.

Existence of Fomenko-Zieschang invariant for certain billiard systems.

Abstract

In the paper we discuss Fomenko conjecture on realization of topology of topology of Liouville foliaions of smooth and real-analytic integrable Hamiltonian systems by integrable billiards. Vedyushkina-Kharcheva algorithm of 3-atom realization by billiard books is described clearly in the terms of $f$-graphs. Note, that an arbitrary type of base of Liouville foliation on the whole isoenergy surface was also realized by V. Vedyushkina and I. Kharcheva algorithm. In this paper this algorithm is visually applied to realization of a well-known Zhukovskii integrable system (Euler system with a gyrostat) in a certain energy zone. It turns out that Liouville foliation is also realized using this construction, not only the class of its base. Thus, Liouville equivalence of these billiard and mechanical systems is shown. Then we discuss V. Kibkalo and V. Vedyushkina result on constructing of a billiard with an arbitrary numerical invariant. Existence of Fomenko-Zieschang invariant is proved for some subclass of billiard books without potential. Also, it is proved that such systems are topologically stable. In the end of the paper we show that planar billiard system in some potential field can have a non-degenerate rank 1 4-singularity singularity not satisfying non-splitting condition. Keywords: mathematical billiard, billiard book, integrable Hamiltonian system, rigid body dynamics, Liouville foliation, Fomenko-Zieschang invariant, singularity.