Particle dynamics in corrugated rectangular billiard
Annotation
The particle dynamics in one side corrugated rectangular billiard system is investigated with the help of numerical analysis. The dependence of chaotic behavior in particle dynamics on the corrugation height h is shown. The focusing mechanism of the corrugated billiard is investigated by analyzing the dependence of the total path on particle incident angle.
Keywords
Постоянный URL
Articles in current issue
- A solution of nonlinear Schrodinger equation ¨ on metric graphs
- Time-dependent quantum graph
- An introduction to the spectral asymptotics of a damped wave equation on metric graphs
- The relativistic inverse scattering problem for quantum graphs
- Cauchy problem for the linearized KdV equation on general metric star graphs
- Uncertainty relation between angle and orbital angular momentum: interference effect in electron vortex beams
- Perturbative hydrodynamic Gross–Pitaevskii treatment for Bose–Einstein condensate in infinite length ring with disorder
- Quantum dynamics in a kicked square billiards
- Time-dependent quantum circular billiard
- Femtosecond pulse shaping via engineered nonlinear photonic crystals
- Nanocatalysis: hypothesis on the action mechanism of gold
- Inverse problem for the identification of a memory kernel from Maxwell’s system integro – differential equations for a homogeneous anisotropic media
- Renyi entropy for the doped graphene at low temperatures
- Universality of the discrete spectrum asymptotics of the three-particle Schrodinger operator on a lattice
- Dependence of the dimension of the associates of water-soluble tris-malonate of light fullerene — C60 [= C(COOH)2]3 in water solutions at 25 ◦C