Electron diffraction is a valuable tool to capture structural information from molecules in the gas phase. However, the information contained in the diffraction patterns is limited due to the random orientation of the molecules. Additional structural information can be retrieved if the molecules are aligned. Molecules can be impulsively aligned with femtosecond laser pulses, producing a transient alignment. The alignment persists only for a time on the order of a picosecond, so a pulsed electron gun is needed to record the diffraction patterns. In this manuscript, we describe the alignment process and show the changes in the diffraction pattern as a result of alignment. Carbon disulfide, a linear molecule, was chosen as a model molecule for...
Random orientation of molecules within a sample leads to blurred observations of chemical reactions ...
We demonstrate an experimental method to record snapshot diffraction images of polyatomic gas-phase ...
We demonstrate an experimental method to record snapshot diffraction images of polyatomic gas-phase ...
Electron diffraction is a valuable tool to capture structural information from molecules in the gas ...
Imaging the structure of molecules in transient-excited states remains a challenge due to the extrem...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
Summary form only given. One of the ultimate goals of molecular physics is the possibility of access...
We experimentally demonstrate ultrafast electron diffraction from transiently aligned molecules in t...
Capturing the structural changes during a molecular reaction with ultrafast electron diffraction (UE...
This paper gives an account of our progress towards performing femtosecond time-resolved photoelectr...
The technique of ultrafast electron diffraction allows direct measurement of changes which occur in ...
Laser-induced electron diffraction is an evolving tabletop method that aims to image ultrafast struc...
Imaging isolated molecules in three dimensions with atomic resolution is important for elucidating c...
Gas-phase ultrafast electron diffraction (UED) is used to extract information from molecular sources...
Random orientation of molecules within a sample leads to blurred observations of chemical reactions ...
We demonstrate an experimental method to record snapshot diffraction images of polyatomic gas-phase ...
We demonstrate an experimental method to record snapshot diffraction images of polyatomic gas-phase ...
Electron diffraction is a valuable tool to capture structural information from molecules in the gas ...
Imaging the structure of molecules in transient-excited states remains a challenge due to the extrem...
Ultrafast electron diffraction has emerged since the end of last century, and has become an increasi...
Summary form only given. One of the ultimate goals of molecular physics is the possibility of access...
We experimentally demonstrate ultrafast electron diffraction from transiently aligned molecules in t...
Capturing the structural changes during a molecular reaction with ultrafast electron diffraction (UE...
This paper gives an account of our progress towards performing femtosecond time-resolved photoelectr...
The technique of ultrafast electron diffraction allows direct measurement of changes which occur in ...
Laser-induced electron diffraction is an evolving tabletop method that aims to image ultrafast struc...
Imaging isolated molecules in three dimensions with atomic resolution is important for elucidating c...
Gas-phase ultrafast electron diffraction (UED) is used to extract information from molecular sources...
Random orientation of molecules within a sample leads to blurred observations of chemical reactions ...
We demonstrate an experimental method to record snapshot diffraction images of polyatomic gas-phase ...
We demonstrate an experimental method to record snapshot diffraction images of polyatomic gas-phase ...