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On the stability of the three classes of Newtonian three-body planar periodic orbits |
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| Authors: | XiaoMing Li ShiJun Liao |
| Institution: | 2. School of Naval Architecture, Ocean and Civil Engineering, Shanghai Jiao Tong University, Shanghai, 200240, China 1. Ministry-of-Education Key Laboratory in Scientific Computing, Shanghai, 200240, China 3. Nonlinear Analysis and Applied Mathematics Research Group (NAAM), King Abdulaziz University (KAU), Jeddah, Saudi Arabia |
| Abstract: | Currently, the fifteen new periodic orbits of Newtonian three-body problem with equal mass were found by ?uvakov and Dmitra ?inovi? Phys Rev Lett, 2013, 110: 114301] using the gradient descent method with double precision. In this paper, these reported orbits are checked stringently by means of a reliable numerical approach (namely the “Clean Numerical Simulation”, CNS), which is based on the arbitrary-order Taylor series method and data in arbitrary-digit precision with a procedure of solution verification. It is found that seven among these fifteen orbits greatly depart from the periodic ones within a long enough interval of time, and are thus most possibly unstable at least. It is suggested to carefully check whether or not these seven unstable orbits are the so-called “computational periodicity” mentioned by Lorenz in 2006. This work also illustrates the validity and great potential of the CNS for chaotic dynamic systems. |
| Keywords: | three body problem periodic orbit stability computational reliability Clean Numerical Simulation(CNS) |
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