Add to ORKGWe present part I in a two-part study of an open chaotic cavity shaped as a vase. The vase possesses an unstable periodic orbit in its neck. Trajectories passing through this orbit escape without return. For our analysis, we consider a family of trajectories launched from a point on the vase boundary. We imagine a vertical array of detectors past the unstable periodic orbit and, for each escaping trajectory, record the propagation time and the vertical detector position. We find that the escape time exhibits a complicated recursive structure. This recursive structure is explored in part I of our study. We present an approximation to the Helmholtz equation for waves escaping the vase. By choosing a set of detector points, we interpolate traj...
Hénon [8] used an inclined billiard to investigate aspects of chaotic scattering which occur in sate...
States supported by chaotic open quantum systems fall into two categories: a majority showing instan...
International audiencePulsating bubbles have proved to be a versatile tool for trapping and sorting ...
We present part I in a two-part study of an open chaotic cavity shaped as a vase. The vase possesses...
We present a study of trajectories in a two-dimensional, open, vase-shaped cavity in the absence of ...
We consider the escape of ballistic trajectories from an open, vase-shaped cavity. Such a system ser...
We present part II of a study of chaotic escape from an open two-dimensional vase-shaped cavity. A s...
One or more small holes provide non-destructive windows to observe corresponding closed systems, for...
We continue our study of the fractal structure of escape-time plots for chaotic maps. In the precedi...
We study the effect of homogeneous noise on the escape rate of strongly chaotic area-preserving maps...
We consider a dynamical system given by an area-preserving map on a two-dimensional phase plane and ...
We study noise-induced escape within a discrete dynamical system that has two co-existing chaotic at...
The Duffing 'twin-well' oscillator is investigated both experimentally and theoretically. The constr...
There are numerous physical situations in which a hole or leak is introduced in an otherwise closed ...
We examine a system consisting of two reservoirs of particles connected by a channel. In the channel...
Hénon [8] used an inclined billiard to investigate aspects of chaotic scattering which occur in sate...
States supported by chaotic open quantum systems fall into two categories: a majority showing instan...
International audiencePulsating bubbles have proved to be a versatile tool for trapping and sorting ...
We present part I in a two-part study of an open chaotic cavity shaped as a vase. The vase possesses...
We present a study of trajectories in a two-dimensional, open, vase-shaped cavity in the absence of ...
We consider the escape of ballistic trajectories from an open, vase-shaped cavity. Such a system ser...
We present part II of a study of chaotic escape from an open two-dimensional vase-shaped cavity. A s...
One or more small holes provide non-destructive windows to observe corresponding closed systems, for...
We continue our study of the fractal structure of escape-time plots for chaotic maps. In the precedi...
We study the effect of homogeneous noise on the escape rate of strongly chaotic area-preserving maps...
We consider a dynamical system given by an area-preserving map on a two-dimensional phase plane and ...
We study noise-induced escape within a discrete dynamical system that has two co-existing chaotic at...
The Duffing 'twin-well' oscillator is investigated both experimentally and theoretically. The constr...
There are numerous physical situations in which a hole or leak is introduced in an otherwise closed ...
We examine a system consisting of two reservoirs of particles connected by a channel. In the channel...
Hénon [8] used an inclined billiard to investigate aspects of chaotic scattering which occur in sate...
States supported by chaotic open quantum systems fall into two categories: a majority showing instan...
International audiencePulsating bubbles have proved to be a versatile tool for trapping and sorting ...