期刊名称:Computational Methods in Science and Technology
印刷版ISSN:1505-0602
出版年度:2018
卷号:24
期号:2
页码:83-95
DOI:10.12921/cmst.2017.0000055
出版社:Poznan Supercomputing and Networking Center
摘要:The symmetries of the minimal φ4 theory on the lattice are systematically analyzed. We find that symmetry can restrict trajectories to subspaces, while their motions are still chaotic. The chaotic dynamics of autonomous Hamiltonian systems are discussed in relation to the thermodynamic laws. Possibilities of configurations with non-equal ideal gas temperatures in the steady state in Hamiltonian systems, are investigated, and examples of small systems in which the ideal gas temperatures are different within the system are found. The pairing of local (finite-time) Lyapunov exponents are analyzed, and their dependence on various factors, such as the energy of the system, the characteristics of the initial conditions are studied and discussed. We find that for the φ4 theory, higher energies lead to faster pairing times. We also find that symmetries can impede the pairing of local Lyapunov exponents and the convergence of Lyapunov exponents.
其他关键词:symmetries in chaotic dynamics, Lyapunov exponents, second law of thermodynamics
