Add to ORKGRecent advances in pulsed electron gun technology have resulted in femtosecond electron pulses becoming available for ultrafast electron diffraction experiments. For experiments investigating chemical dynamics in the gas phase, the resolution is still limited to picosecond time scales due to the velocity mismatch between laser and electron pulses. Tilted laser pulses can be used for velocity matching, but thus far this has not been demonstrated over an extended target in a diffraction setting. We demonstrate an optical configuration to deliver high-intensity laser pulses with a tilted pulse front for velocity matching over the typical length of a gas jet. A laser pulse is diffracted from a grating to introduce angular dispersion, and the gr...
The time resolution of crossed-beam experiments is explicitly related to velocity mismatch and other...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
Ultrafast electron diffraction is a novel pump-probe technique which aims to determine transient str...
Recent advances in pulsed electron gun technology have resulted in femtosecond electron pulses becom...
Ultrafast electron diffraction is a powerful technique to investigate out-of-equilibrium atomic dyna...
We designed and constructed a state-of-the-art high current ultrafast gas electron diffraction exper...
We present time-resolved RHEED from a laser excited Pb(111) surface using a pulse front tilter for t...
Capturing the structural changes during a molecular reaction with ultrafast electron diffraction (UE...
Ultrafast electron microscopy and diffraction are powerful techniques for the study of the time-reso...
A dc electron gun, generating picosecond pulses with up to $8\times10^6$ electrons per pulse, was de...
Electron diffraction is a valuable tool to capture structural information from molecules in the gas ...
We have constructed an experimental setup for gas phase electron diffraction with femtosecond resolu...
We report the all-optical generation and characterization of tilted electron pulses by means of sing...
The time resolution of crossed-beam experiments is explicitly related to velocity mismatch and other...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
Ultrafast electron diffraction is a novel pump-probe technique which aims to determine transient str...
Recent advances in pulsed electron gun technology have resulted in femtosecond electron pulses becom...
Ultrafast electron diffraction is a powerful technique to investigate out-of-equilibrium atomic dyna...
We designed and constructed a state-of-the-art high current ultrafast gas electron diffraction exper...
We present time-resolved RHEED from a laser excited Pb(111) surface using a pulse front tilter for t...
Capturing the structural changes during a molecular reaction with ultrafast electron diffraction (UE...
Ultrafast electron microscopy and diffraction are powerful techniques for the study of the time-reso...
A dc electron gun, generating picosecond pulses with up to $8\times10^6$ electrons per pulse, was de...
Electron diffraction is a valuable tool to capture structural information from molecules in the gas ...
We have constructed an experimental setup for gas phase electron diffraction with femtosecond resolu...
We report the all-optical generation and characterization of tilted electron pulses by means of sing...
The time resolution of crossed-beam experiments is explicitly related to velocity mismatch and other...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
Ultrafast electron diffraction is a novel pump-probe technique which aims to determine transient str...