Mathematics (Nov 2019)

Geometric Models for Lie–Hamilton Systems on ℝ<sup>2</sup>

  • Julia Lange,
  • Javier de Lucas

DOI
https://doi.org/10.3390/math7111053
Journal volume & issue
Vol. 7, no. 11
p. 1053

Abstract

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This paper provides a geometric description for Lie−Hamilton systems on R 2 with locally transitive Vessiot−Guldberg Lie algebras through two types of geometric models. The first one is the restriction of a class of Lie−Hamilton systems on the dual of a Lie algebra to even-dimensional symplectic leaves relative to the Kirillov-Kostant-Souriau bracket. The second is a projection onto a quotient space of an automorphic Lie−Hamilton system relative to a naturally defined Poisson structure or, more generally, an automorphic Lie system with a compatible bivector field. These models give a natural framework for the analysis of Lie−Hamilton systems on R 2 while retrieving known results in a natural manner. Our methods may be extended to study Lie−Hamilton systems on higher-dimensional manifolds and provide new approaches to Lie systems admitting compatible geometric structures.

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