Rydberg hydrogen atom near a metallic surface: Stark regime and ionization dynamics
- Iñarrea, M. 1
- Lanchares, V. 1
- Palacián, J.F. 2
- Pascual, A.I. 1
- Salas, J.P. 1
- Yanguas, P. 2
-
1
Universidad de La Rioja
info
-
2
Universidad Pública de Navarra
info
ISSN: 1050-2947
Año de publicación: 2007
Volumen: 76
Número: 5
Páginas: 52903
Tipo: Artículo
Otras publicaciones en: Physical Review A. Atomic, Molecular, and Optical Physics
Resumen
We investigate the classical dynamics of a hydrogen atom near a metallic surface in the presence of a uniform electric field. To describe the atom-surface interaction we use a simple electrostatic image model. Owing to the axial symmetry of the system, the z -component of the canonical angular momentum P is an integral and the electronic dynamics is modeled by a two degrees of freedom Hamiltonian in cylindrical coordinates. The structure and evolution of the phase space as a function of the electric field strength is explored extensively by means of numerical techniques of continuation of families of periodic orbits and Poincaré surfaces of section. We find that, due to the presence of the electric field, the atom is strongly polarized through two consecutive pitchfork bifurcations that strongly change the phase space structure. Finally, by means of the phase space transition state theory and the classical spectral theorem, the ionization dynamics of the atom is studied. © 2007 The American Physical Society.