High-harmonic interferometry can be used to measure the amplitude and phase of light emitted from molecules. This method has now been used to reveal the ultrafast dynamics of electrons and nuclear interactions during a chemical reaction
Folding, isomerization, and dissociation of molecules, i.e., bond breaking and bond formation, is ha...
To fully understand atomic and molecular dynamics scientists must be able to probe and study dynamic...
With the advent of femtosecond (fs) time resolution in spectroscopic experiments, it is now possible...
At the heart of high harmonic generation lies a combination of optical and collision physics entwine...
This review discusses a new method for probing the evolution of the valence-electron structure of mo...
The development of ultrashort-pulse lasers has played a pivotal role in studies of ultrafast chemica...
Observing the motion of the nuclear wave packets during a molecular reaction, in both space and time...
To study transition structures that are formed in real time during a chemical reaction process, it i...
This thesis presents four distinct applications of ultrafast laser spectroscopy. Unimolecular photod...
Ultrafast electron diffraction (UED) has been developed to study transient structures in complex che...
The study of chemical reactions on the molecular (femtosecond) timescale typically uses pump laser p...
We report recent progress in theoretical understanding of high harmonic generation from atoms and mo...
Ultrafast laser spectroscopy has extended reaction-dynamic studies into the dcosecond and femtosecon...
Strong field ionization with ultrafast laser pulses allows for real-time measurements of the forming...
We show that high-order harmonics generated from molecules by intense laser pulses can be expressed ...
Folding, isomerization, and dissociation of molecules, i.e., bond breaking and bond formation, is ha...
To fully understand atomic and molecular dynamics scientists must be able to probe and study dynamic...
With the advent of femtosecond (fs) time resolution in spectroscopic experiments, it is now possible...
At the heart of high harmonic generation lies a combination of optical and collision physics entwine...
This review discusses a new method for probing the evolution of the valence-electron structure of mo...
The development of ultrashort-pulse lasers has played a pivotal role in studies of ultrafast chemica...
Observing the motion of the nuclear wave packets during a molecular reaction, in both space and time...
To study transition structures that are formed in real time during a chemical reaction process, it i...
This thesis presents four distinct applications of ultrafast laser spectroscopy. Unimolecular photod...
Ultrafast electron diffraction (UED) has been developed to study transient structures in complex che...
The study of chemical reactions on the molecular (femtosecond) timescale typically uses pump laser p...
We report recent progress in theoretical understanding of high harmonic generation from atoms and mo...
Ultrafast laser spectroscopy has extended reaction-dynamic studies into the dcosecond and femtosecon...
Strong field ionization with ultrafast laser pulses allows for real-time measurements of the forming...
We show that high-order harmonics generated from molecules by intense laser pulses can be expressed ...
Folding, isomerization, and dissociation of molecules, i.e., bond breaking and bond formation, is ha...
To fully understand atomic and molecular dynamics scientists must be able to probe and study dynamic...
With the advent of femtosecond (fs) time resolution in spectroscopic experiments, it is now possible...
DOI
Add to ORKG