Add to ORKGIsolated, attosecond laser pulses have allowed real-time measurement and control of electrons on atomic time scales. We present an explicit time-evolution scheme solving the time dependent Schro ̈dinger equation, which employs an adaptive, discontinuous, spectral-element basis that automatically refines to accommodate the requested precision providing efficient computation across many length scales in multiple dimensions. This method is illustrated through time evolution studies of single electron atoms and molecular ions in three and four dimensions under the influence of intense, few-cycle laser pulses
One of the major problems in building a quantum computer is the development of scalable and robust m...
The ultimate reason for chemical reactivity is the electronic motion, occurring at an attosecond tim...
Atom-field interactions in the ionization regime give rise to a wide range of physical phenomena, an...
This thesis contains several theoretical investigations of different ionization phenomena resulting ...
We introduce a recent developed time-dependent method used in the study of laser-atom interactions. ...
Recent developments in laser science have made it possible to experimentally study ultrafast electro...
This dissertation presents the study of how two laser pulses can bind sodium and cesium atoms at ult...
textThis dissertation presents the development and implementation of two novel experimental techniqu...
This thesis is a collection of three separate projects ordered according to the historical developm...
In this thesis, a model to describe the interactions between hydrogen-like atoms and intense laser p...
The development of lasers capable of producing high-intensity pulses has opened a new area in the st...
We introduce a recent developed time-dependent method used in the study of laser–atom interactions. ...
Whenever scientific tools are significantly advanced; new discoveries soon follow. My thesis work re...
Physicists have long been able to snap atomic-scale pictures by shining a beam of electrons at a tar...
In this thesis we are concerned with the interaction of an atom with an intense laser field. By nume...
One of the major problems in building a quantum computer is the development of scalable and robust m...
The ultimate reason for chemical reactivity is the electronic motion, occurring at an attosecond tim...
Atom-field interactions in the ionization regime give rise to a wide range of physical phenomena, an...
This thesis contains several theoretical investigations of different ionization phenomena resulting ...
We introduce a recent developed time-dependent method used in the study of laser-atom interactions. ...
Recent developments in laser science have made it possible to experimentally study ultrafast electro...
This dissertation presents the study of how two laser pulses can bind sodium and cesium atoms at ult...
textThis dissertation presents the development and implementation of two novel experimental techniqu...
This thesis is a collection of three separate projects ordered according to the historical developm...
In this thesis, a model to describe the interactions between hydrogen-like atoms and intense laser p...
The development of lasers capable of producing high-intensity pulses has opened a new area in the st...
We introduce a recent developed time-dependent method used in the study of laser–atom interactions. ...
Whenever scientific tools are significantly advanced; new discoveries soon follow. My thesis work re...
Physicists have long been able to snap atomic-scale pictures by shining a beam of electrons at a tar...
In this thesis we are concerned with the interaction of an atom with an intense laser field. By nume...
One of the major problems in building a quantum computer is the development of scalable and robust m...
The ultimate reason for chemical reactivity is the electronic motion, occurring at an attosecond tim...
Atom-field interactions in the ionization regime give rise to a wide range of physical phenomena, an...