Add to ORKGWe apply laser-induced electron diffraction imaging driven by mid-IR electric waveforms towards probing molecular dynamics at few-femtosecond temporal resolutions. Combined with coincidence detection we can extract structural information of fragmentation pathways of acetylene
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
In order to probe molecular dynamics at few-femtosecond resolution we use laserinduced electron diff...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Imaging the dynamics of molecular processes, i.e. the creation of a so-called \u27molecular movie\u2...
Laser-induced electron diffraction is an evolving tabletop method that aims to image ultrafast struc...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Laser-induced electron diffraction is an evolving tabletop method that aims to image ultrafast struc...
Laser-induced electron diffraction is an evolving tabletop method that aims to image ultrafast struc...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
In order to probe molecular dynamics at few-femtosecond resolution we use laserinduced electron diff...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Imaging the dynamics of molecular processes, i.e. the creation of a so-called \u27molecular movie\u2...
Laser-induced electron diffraction is an evolving tabletop method that aims to image ultrafast struc...
Visualizing chemical reactions as they occur requires atomic spatial and femtosecond temporal resolu...
Laser-induced electron diffraction is an evolving tabletop method that aims to image ultrafast struc...
Laser-induced electron diffraction is an evolving tabletop method that aims to image ultrafast struc...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...