Abstract The mechanism of generation and annihilation of attractors during transition from a Hamiltonian system to a dissipative system is studied numerically using the dissipative standard map. The transient process related to the formation of attracting basins of periodic attractors is studied by discussing the evolution of the KAM tori of the standard map. The result shows that as damping increases, attractors are mainly generated from elliptic orbits of the Hamiltonian system and annihilated by colliding with unstable periodic orbits originating from the corresponding hyperbolic orbits of the Hamiltonian system. The transient process also exhibits the general feature of bifurcation.
Received: 24 September 2003
Revised: 05 January 2004
Accepted manuscript online:
PACS:
05.45.-a
(Nonlinear dynamics and chaos)
Fund: Project supported by the National Natural Science Foundation of China (Grant No 19835020).
Cite this article:
Zhang Guang-Cai (张广才), Zhang Hong-Jun (张洪钧) The dynamical feature of transition of a Hamiltonian system to a dissipative system 2004 Chinese Physics 13 828
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