Dissipation-Induced Heteroclinic Orbits in Tippe Tops
Copyright policy )Dissipation-Induced Heteroclinic Orbits in Tippe Tops
This paper demonstrates that the conditions for the existence of a dissipation-induced heteroclinic orbit between the inverted and noninverted states of a tippe top are determined by a complex version of the equations for a simple harmonic oscillator: the modified Maxwell-Bloch equations. A standard linear analysis reveals that the modified Maxwell-Bloch equations describe the spectral instability of the noninverted state and Lyapunov stability of the inverted state. Standard nonlinear analysis based on the energy momentum method gives necessary and sufficient conditions for the existence of a dissipation-induced connecting orbit between these relative equilibria.
- Sandia National Laboratories California United States
- California Institute of Technology United States
heteroclinic orbits, gyroscopic stabilization, 330, dissipation-induced instability, relative equilibria, tippe top inversion, 510
heteroclinic orbits, gyroscopic stabilization, 330, dissipation-induced instability, relative equilibria, tippe top inversion, 510
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