Charles Karney: Publication 40/85, Karney(1984)

C. F. F. Karney.
Long-time correlations in stochastic systems.
In C. W. Horton and L. E. Reichl, editors, Statistical Physics and Chaos in Fusion Plasmas, volume III of Wiley-Interscience Series on Nonequilibrium Problems in the Physical Sciences and Biology, pages 33–42, Wiley, New York, 1984.
E-print: arXiv:nlin.CD/0501024 (Mirror).
Proc. US-Japan Workshop, Austin, TX, Dec. 13–17, 1982.
Reprint: spc84
BibTeX Entry

In recent years, there has been considerable interest in understanding the motion in Hamiltonian systems when phase space is divided into stochastic and integrable regions. This paper studies one aspect of this problem, namely, the motion of trajectories in the stochastic sea when there is a small island present. The results show that the particle can be stuck close to the island for very long times. For the standard mapping, where accelerator modes are possible, it appears that the mean squared displacement of particles in the stochastic sea may increase faster than linearly with time indicating non-diffusive behavior.