We numerically study the excitation mechanism of the hydrogen atom in a microwave field and show that quantum mechanics imposes limitations to the classical chaotic diffusion. In particular a multiphoton resonance pattern has been found. We suggest that a direct laboratory experimental verification of these phenomena should be possible
Time-periodic Hamiltonian systems are an easily accessible area for comparing quantum and classical ...
Abstract. We present a semiclassical analysis of the dynamics of Rydberg states of atomic hydrogen d...
The excitation of multi-level systems by a periodic field is considered in the regime of quasiclassi...
We numerically study the excitation mechanism of the hydrogen atom in a microwave field and show tha...
The system of highly excited hydrogen in combined strong ac and de electric fields is examined. It ...
The system of highly excited hydrogen in combined strong ac and dc electric fields is examined. It i...
A simple numerical reversibility test which proves useful in exposing the chaotic nature of classica...
This thesis investigates quantum transport in the energy space of two paradigm systems of quantum ch...
What is the behavior of a low-dimensional quantal system whose classical, deterministic, Hamiltonian...
Quantum systems under the action of laser of microwave radiation are considered in the paper aiming ...
We analyse the excitation mechanisms which determine the dynamics of highly excited hydrogen atoms t...
This is the published version, also available here: http://dx.doi.org/10.1103/PhysRevA.39.1800.We pr...
Dynamical behavior of chemical reactivity indices like electronegativity, hardness, polarizability, ...
We establish analogy between a microwave ionization of Rydberg atoms and a charge transport through ...
We consider the dynamics of Rydberg states of the hydrogen atom driven by a microwave field of ellip...
Time-periodic Hamiltonian systems are an easily accessible area for comparing quantum and classical ...
Abstract. We present a semiclassical analysis of the dynamics of Rydberg states of atomic hydrogen d...
The excitation of multi-level systems by a periodic field is considered in the regime of quasiclassi...
We numerically study the excitation mechanism of the hydrogen atom in a microwave field and show tha...
The system of highly excited hydrogen in combined strong ac and de electric fields is examined. It ...
The system of highly excited hydrogen in combined strong ac and dc electric fields is examined. It i...
A simple numerical reversibility test which proves useful in exposing the chaotic nature of classica...
This thesis investigates quantum transport in the energy space of two paradigm systems of quantum ch...
What is the behavior of a low-dimensional quantal system whose classical, deterministic, Hamiltonian...
Quantum systems under the action of laser of microwave radiation are considered in the paper aiming ...
We analyse the excitation mechanisms which determine the dynamics of highly excited hydrogen atoms t...
This is the published version, also available here: http://dx.doi.org/10.1103/PhysRevA.39.1800.We pr...
Dynamical behavior of chemical reactivity indices like electronegativity, hardness, polarizability, ...
We establish analogy between a microwave ionization of Rydberg atoms and a charge transport through ...
We consider the dynamics of Rydberg states of the hydrogen atom driven by a microwave field of ellip...
Time-periodic Hamiltonian systems are an easily accessible area for comparing quantum and classical ...
Abstract. We present a semiclassical analysis of the dynamics of Rydberg states of atomic hydrogen d...
The excitation of multi-level systems by a periodic field is considered in the regime of quasiclassi...
DOI
Add to ORKG