Add to ORKGThe research in this thesis focuses on the study of chaotic transport in phase space applied to the analysis of ionization in two different atomic systems. The first system consists of an atom exposed to periodic alternating positive and negative external electric field pulses, and the second system consists of an atom placed in constant external electric and magnetic fields. The main goal of this thesis is to develop a connection between the general mathematical constructs of a dynamical system, and an atomic experiment. As such, this research acts as a bridge between the areas of applied math and experimental physics--Abstract
SUMMARY We present a very simple model for realizing directed transport with cold atoms in a pair ...
Preface, Special issue CNSNS Jan 2010.It has long been recognized that chaos is ubiquitous in scienc...
International audienceThe Anderson model is a paradigm for quantum disordered physical systems. Orig...
This thesis investigates quantum transport in the energy space of two paradigm systems of quantum ch...
This manuscript summarizes some results about wave transport in complex systems. The first part conc...
Quasi-one-dimensional Rydberg atoms exposed to alternating positive and negative electric field puls...
We analyze the influence of classical phase-space structures on the ionization behavior of Rydberg a...
The dynamical behavior of an atom interacting with a coherent field and a chaotic field is studied. ...
This thesis begins with a consideration of the two-level atom driven by a coherent field without the...
This thesis is concerned with a variety of topics grouped together under the general theme of period...
We investigate chaotic ionization of highly excited hydrogen atom in crossed electric and magnetic f...
We examine excitation (by a short laser pulse) of a hydrogen atom in parallel electric and magnetic ...
Some dynamical properties for an ensemble of non-interacting classical particles along chaotic orbit...
We discuss recent experimental and theoretical investigations of quantum dynamics in periodically ki...
For atomic radiation systems resonantly interacting each other, it is seen that chaotic atomic motio...
SUMMARY We present a very simple model for realizing directed transport with cold atoms in a pair ...
Preface, Special issue CNSNS Jan 2010.It has long been recognized that chaos is ubiquitous in scienc...
International audienceThe Anderson model is a paradigm for quantum disordered physical systems. Orig...
This thesis investigates quantum transport in the energy space of two paradigm systems of quantum ch...
This manuscript summarizes some results about wave transport in complex systems. The first part conc...
Quasi-one-dimensional Rydberg atoms exposed to alternating positive and negative electric field puls...
We analyze the influence of classical phase-space structures on the ionization behavior of Rydberg a...
The dynamical behavior of an atom interacting with a coherent field and a chaotic field is studied. ...
This thesis begins with a consideration of the two-level atom driven by a coherent field without the...
This thesis is concerned with a variety of topics grouped together under the general theme of period...
We investigate chaotic ionization of highly excited hydrogen atom in crossed electric and magnetic f...
We examine excitation (by a short laser pulse) of a hydrogen atom in parallel electric and magnetic ...
Some dynamical properties for an ensemble of non-interacting classical particles along chaotic orbit...
We discuss recent experimental and theoretical investigations of quantum dynamics in periodically ki...
For atomic radiation systems resonantly interacting each other, it is seen that chaotic atomic motio...
SUMMARY We present a very simple model for realizing directed transport with cold atoms in a pair ...
Preface, Special issue CNSNS Jan 2010.It has long been recognized that chaos is ubiquitous in scienc...
International audienceThe Anderson model is a paradigm for quantum disordered physical systems. Orig...