A natural example of evolution can be described by a time-dependent two degrees-of-freedom Hamiltonian. We choose the case where initially the Hamiltonian derives from a general cubic potential, the linearised system has frequencies 1 and ω>0. The time-dependence produces slow evolution to discrete (mirror) symmetry in one of the degrees-of-freedom. This changes the dynamics drastically depending on the frequency ratio ω and the timescale of evolution. We analyse the cases ω=1,2,3 where the ratio’s 1,2 turn out to be the most interesting. In an initial phase we find 2 adiabatic invariants with changes near the end of evolution. A remarkable feature is the vanishing and emergence of normal modes, stability changes and strong changes of the v...
We present the results of numerical time evolutions of the linearized perturbations of rapidly and r...
Context.Many astrophysical problems, ranging from structure formation in cosmology to dynamics of e...
The equilibrium of a rotating self-gravitating fluid is governed by non-linear equations. The equili...
A natural example of evolution can be described by a time-dependent two degrees-of- freedom Hamilton...
The evolution of a rotating axisymmetric galaxy from an asymmetric state to a state of mirror symmet...
The dynamics of timedependent evolution towards symmetry in Hamiltonian systems poses a dicult probl...
We study evolutionary canalization using a spin-glass model with replica theory, where spins and the...
Dynamics of planets around other stars that demonstrate a variety of possible characteristics is of ...
We investigate the evolution of the rotational axes of exoplanets under the action of gravitational ...
This paper is concerned with the relation between the dynamics of a given Hamiltonian system with a ...
We investigates the orbit structure of two degrees of freedom nonlinear Hamiltonian systems around s...
Recently a Hamiltonian formulation for the evolution of the universe dominated by multiple oscillato...
This paper is concerned with the relation between the dynamics of a given Hamiltonian system with a ...
In this paper we survey the topic of time-reversal symmetry in dynamical systems. We begin with a br...
In this paper a Hamiltonian analogue of the well-known meandering transition from rotating waves to ...
We present the results of numerical time evolutions of the linearized perturbations of rapidly and r...
Context.Many astrophysical problems, ranging from structure formation in cosmology to dynamics of e...
The equilibrium of a rotating self-gravitating fluid is governed by non-linear equations. The equili...
A natural example of evolution can be described by a time-dependent two degrees-of- freedom Hamilton...
The evolution of a rotating axisymmetric galaxy from an asymmetric state to a state of mirror symmet...
The dynamics of timedependent evolution towards symmetry in Hamiltonian systems poses a dicult probl...
We study evolutionary canalization using a spin-glass model with replica theory, where spins and the...
Dynamics of planets around other stars that demonstrate a variety of possible characteristics is of ...
We investigate the evolution of the rotational axes of exoplanets under the action of gravitational ...
This paper is concerned with the relation between the dynamics of a given Hamiltonian system with a ...
We investigates the orbit structure of two degrees of freedom nonlinear Hamiltonian systems around s...
Recently a Hamiltonian formulation for the evolution of the universe dominated by multiple oscillato...
This paper is concerned with the relation between the dynamics of a given Hamiltonian system with a ...
In this paper we survey the topic of time-reversal symmetry in dynamical systems. We begin with a br...
In this paper a Hamiltonian analogue of the well-known meandering transition from rotating waves to ...
We present the results of numerical time evolutions of the linearized perturbations of rapidly and r...
Context.Many astrophysical problems, ranging from structure formation in cosmology to dynamics of e...
The equilibrium of a rotating self-gravitating fluid is governed by non-linear equations. The equili...