Singularities in Poisson manifolds: bifurcation and symmetry breaking

Hamiltonian systems, from topology to applications through analysis II November 26, 2018 - November 30, 2018

November 28, 2018 (09:30 AM PST - 10:30 AM PST)

Speaker(s): Zensho Yoshida (University of Tokyo)
Location: SLMath: Eisenbud Auditorium

Tags/Keywords

Poisson algebra
singularities
chirality
bifurcation

Primary Mathematics Subject Classification

37Hxx - Random dynamical systems [See also 15B52, 34Fxx, 47B80, 70L05, 82C05, 93Exx]

Secondary Mathematics Subject Classification

37-00 - General reference works (handbooks, dictionaries, bibliographies, etc.) pertaining to dynamical systems and ergodic theory

Video

10-Yoshida

Abstract

A variety of interesting structures and dynamics stem from singularities of Poisson operators. As well known, the kernel of a finite-dimensional Poisson operator can be integrated “locally” to define Casimirs, and their level-sets foliate the phase space yielding symplectic submanifolds (Lie-Darboux theorem). However, the global structure can be more complex when the Poisson operator has “singularities” where its rank changes. Invoking some physical examples (both finite dimensional and infinite dimensional), we discuss how singularities cause seemingly non-Hamiltonian phenomena. Some theoretical methods for probing into singularities will be also introduced.

Supplements

	Notes 1.29 MB application/pdf	Download

Video/Audio Files

10-Yoshida

H.264 Video	10-Yoshida.mp4 433 MB video/mp4	Download

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