The authors prove the existence of a new type of resonance formation in highly doubly excited atoms and ions. The resonant states represent the quantum analogue of a stable planetary atom configuration discovered recently in classical mechanics. The energies and total decay widths of the resonances are calculated quantum mechanically by solving the full three-body Coulomb problem without any approximation. The resonance energies and the structure of the associated wavefunctions coincide with expectations derived from simple semiclassical models. The authors discuss excitation schemes which should allow an experimental observation of these strongly correlated electron states
There are several reasons why exotic and artificial atoms attract the interest of different scientif...
The authors present optical excitation functions of singly excited helium states, measured by detect...
Recent progress in the semiclassical description of two-electron atoms is reported herein. It is s...
The authors prove the existence of a new type of resonance formation in highly doubly excited atoms...
The authors study a new class of long-lived resonances of doubly excited two-electron atoms. The s...
We report on a class of long-lived resonant states of doubly excited twoelectron atoms which exhibit...
The semiclassical quantization of classically stable planetary atom configurations (the so called ...
Abstract: An improved adiabatic method is applied to study the highly excited asymmetric two-electro...
The authors analyse the classical dynamics of near-collinear electron configurations in helium. Th...
Resonant states are multiply excited states in atoms and ions that have enough energy to decay by em...
Electronic states in which two electrons are highly excited offer the possibility to study in great ...
AbstractA new, semiclassical model of atoms and ions is applied to systems with two, three, four, an...
Originally, closed-orbit theory was developed in order to analyze oscillations in the near ionizatio...
An atom with many electrons is like a complex ballet, displaying an often chaotic interplay of orbit...
The lowest 1Se resonance state in a family of symmetric three-body Coulomb systems is systematically...
There are several reasons why exotic and artificial atoms attract the interest of different scientif...
The authors present optical excitation functions of singly excited helium states, measured by detect...
Recent progress in the semiclassical description of two-electron atoms is reported herein. It is s...
The authors prove the existence of a new type of resonance formation in highly doubly excited atoms...
The authors study a new class of long-lived resonances of doubly excited two-electron atoms. The s...
We report on a class of long-lived resonant states of doubly excited twoelectron atoms which exhibit...
The semiclassical quantization of classically stable planetary atom configurations (the so called ...
Abstract: An improved adiabatic method is applied to study the highly excited asymmetric two-electro...
The authors analyse the classical dynamics of near-collinear electron configurations in helium. Th...
Resonant states are multiply excited states in atoms and ions that have enough energy to decay by em...
Electronic states in which two electrons are highly excited offer the possibility to study in great ...
AbstractA new, semiclassical model of atoms and ions is applied to systems with two, three, four, an...
Originally, closed-orbit theory was developed in order to analyze oscillations in the near ionizatio...
An atom with many electrons is like a complex ballet, displaying an often chaotic interplay of orbit...
The lowest 1Se resonance state in a family of symmetric three-body Coulomb systems is systematically...
There are several reasons why exotic and artificial atoms attract the interest of different scientif...
The authors present optical excitation functions of singly excited helium states, measured by detect...
Recent progress in the semiclassical description of two-electron atoms is reported herein. It is s...