Add to ORKGDuring the last decade, X-ray free-electron lasers (XFELs) have enabled the study of light-matter interaction under extreme conditions. Atoms which are subject to XFEL radiation are charged by a complex interplay of (several subsequent) photoionization events and electronic decay processes within a few femtoseconds. The interaction with molecules is even more intriguing, since intricate nuclear dynamics occur as the molecules start to dissociate during the charge-up process. Here, we demonstrate that by analyzing photoelectron angular emission distributions and kinetic energy release of charge states of ionic molecular fragments, we can obtain a detailed understanding of the charge-up and fragmentation dynamics. Our novel approach allows fo...
The advent of X-ray free-electron lasers (XFELs) over the past decade, providing ultraintense femtos...
Photofragmentation dynamics of molecular iodine was studied as a response to the joint illumination ...
Author Institution: Department of Chemistry, Wayne State University; Chemistry Department, Brookhave...
During the last decade, X-ray free-electron lasers (XFELs) have enabled the study of light–matter in...
The recent availability of X-ray Free Electron Lasers (XFELs) has opened a completely new and unexpl...
We studied the electronic and nuclear dynamics of I-containing organic molecules induced by intense ...
The direct observation of molecular dynamics initiated by x-rays has been hindered to date by the la...
The ionization and fragmentation dynamics of small molecules (CH<sub>3</sub>SeH, C<sub>2</sub>H<sub>...
XUV multiphoton ionization of molecules is commonly used in free-electron laser experiments to study...
Doctor of PhilosophyDepartment of PhysicsArtem RudenkoA new era in ultrafast science has started in ...
We traced the femtosecond nuclear-wave-packet dynamics in ionic states of oxygen and nitrogen diatom...
XUV multiphoton ionization of molecules is commonly used in free-electron laser experiments to study...
The ionization and fragmentation dynamics of iodine molecules (I-2) are traced using very intense (s...
Molecules can sequentially absorb multiple photons when irradiated by an intense X-ray pulse from a ...
We carried out experimental and theoretical investigation of the response of a complex molecule, C60...
The advent of X-ray free-electron lasers (XFELs) over the past decade, providing ultraintense femtos...
Photofragmentation dynamics of molecular iodine was studied as a response to the joint illumination ...
Author Institution: Department of Chemistry, Wayne State University; Chemistry Department, Brookhave...
During the last decade, X-ray free-electron lasers (XFELs) have enabled the study of light–matter in...
The recent availability of X-ray Free Electron Lasers (XFELs) has opened a completely new and unexpl...
We studied the electronic and nuclear dynamics of I-containing organic molecules induced by intense ...
The direct observation of molecular dynamics initiated by x-rays has been hindered to date by the la...
The ionization and fragmentation dynamics of small molecules (CH<sub>3</sub>SeH, C<sub>2</sub>H<sub>...
XUV multiphoton ionization of molecules is commonly used in free-electron laser experiments to study...
Doctor of PhilosophyDepartment of PhysicsArtem RudenkoA new era in ultrafast science has started in ...
We traced the femtosecond nuclear-wave-packet dynamics in ionic states of oxygen and nitrogen diatom...
XUV multiphoton ionization of molecules is commonly used in free-electron laser experiments to study...
The ionization and fragmentation dynamics of iodine molecules (I-2) are traced using very intense (s...
Molecules can sequentially absorb multiple photons when irradiated by an intense X-ray pulse from a ...
We carried out experimental and theoretical investigation of the response of a complex molecule, C60...
The advent of X-ray free-electron lasers (XFELs) over the past decade, providing ultraintense femtos...
Photofragmentation dynamics of molecular iodine was studied as a response to the joint illumination ...
Author Institution: Department of Chemistry, Wayne State University; Chemistry Department, Brookhave...