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Совместный общематематический семинар СПбГУ и Пекинского Университета
1 декабря 2022 г. 15:00–16:00, г. Санкт-Петербург, online
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On rationally integrable planar dual and projective billiards
A. A. Glutsyuk École Normale Supérieure de Lyon
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Количество просмотров: |
Эта страница: | 149 | Материалы: | 1 |
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Аннотация:
A caustic of a strictly convex planar bounded billiard is a smooth curve
whose tangent lines are reflected from the billiard boundary to its tangent
lines. The famous Birkhoff Conjecture states that if the billiard boundary
has an inner neighborhood foliated by closed caustics, then the billiard is
an ellipse. It was studied by many mathematicians, including H.Poritsky,
M.Bialy, S.Bolotin, A.Mironov, V.Kaloshin, A.Sorrentino and others.
We study its following generalized dual version stated by S.Tabachnikov.
Consider a closed smooth strictly convex curve $\gamma \subset \mathbb{RP}^2$
equipped with a
dual billiard structure: a family of non-trivial projective involutions acting
on its projective tangent lines and fixing the tangency points. Suppose that
its outer neighborhood admits a foliation by closed curves (including $\gamma$) such
that the involution of each tangent line permutes its intersection points with
every leaf. Then $\gamma$ and the leaves are conics forming a pencil.
We prove positive answer in the case, when the curve $\gamma$ is $C^4$-smooth
and the foliation admits a rational first integral. To this end, we show that
each $C^4$-smooth germ $\gamma$ of planar curve carrying a rationally integrable dual
billiard structure (i.e., with involutions preserving restrictions to lines of
some rational function) is a conic and classify all the rationally integrable
dual billiards on conics. They include the dual billiards induced by pencils
of conics, two infinite series of exotic dual billiards and five more exotic ones.
Язык доклада: английский
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