Add to ORKGOrbital angular momentum (OAM) carried by vortex beams has seen an explosion of interest across fields and this is particularly true in attosecond physics. Given that twisted electrons have been shown to be sensitive to the chirality of molecules, exploring this sensitivity on the attosecond scale is a particularly exciting prospect. The OAM of photoelectrons has been theoretically studied discussing ways to measure and understand the ionization via an analytic formalism. This opens up the possibility of using the photoelectron OAM as an imaging tool. However, in most of the earlier studies the effects of the initial state on the photoelectron OAM have been neglected. In this project, using an analytic formalism to produce chiral hydrogen s...
Chiral light-matter interactions have been investigated for two centuries, leading to the discovery ...
Motivated by recent experiments on circular dichroism in the photoelectron momentum distributions fr...
Circular dichroism and optical rotation are crucial for the characterization of chiral molecules and...
This is the plotting data and plotting scripts for the publication: “Ultrafast imaging of molecular ...
We investigate twisted electrons with a well-defined orbital angular momentum, which have been ionis...
This is the SFA source code for: "Ultrafast imaging of molecular chirality with photoelectron vortic...
The question of how the orbital angular momentum of structured light might engage with chiral matter...
Optical activity is conventionally understood as a natural difference in the optical responses of ch...
The issue of whether the optical orbital angular momentum of light can play any significant role in ...
Data for the publication "Conservation laws for Electron Vortices in Strong-Field Ionisation", avail...
The extent to which structured light might conceivably resolve the handedness of chiral matter is a ...
Vortex states are interesting fundamental quantum states whilst also finding many uses in photon opt...
There is recurrent interest in the orbital angular momentum (OAM) conveyed by optical vortices, whic...
Chiral molecules ionized by circularly polarized fields produce a photoelectron current orthogonal t...
In this thesis, we present a unified perspective on chiral measurements in the electric-dipole appro...
Chiral light-matter interactions have been investigated for two centuries, leading to the discovery ...
Motivated by recent experiments on circular dichroism in the photoelectron momentum distributions fr...
Circular dichroism and optical rotation are crucial for the characterization of chiral molecules and...
This is the plotting data and plotting scripts for the publication: “Ultrafast imaging of molecular ...
We investigate twisted electrons with a well-defined orbital angular momentum, which have been ionis...
This is the SFA source code for: "Ultrafast imaging of molecular chirality with photoelectron vortic...
The question of how the orbital angular momentum of structured light might engage with chiral matter...
Optical activity is conventionally understood as a natural difference in the optical responses of ch...
The issue of whether the optical orbital angular momentum of light can play any significant role in ...
Data for the publication "Conservation laws for Electron Vortices in Strong-Field Ionisation", avail...
The extent to which structured light might conceivably resolve the handedness of chiral matter is a ...
Vortex states are interesting fundamental quantum states whilst also finding many uses in photon opt...
There is recurrent interest in the orbital angular momentum (OAM) conveyed by optical vortices, whic...
Chiral molecules ionized by circularly polarized fields produce a photoelectron current orthogonal t...
In this thesis, we present a unified perspective on chiral measurements in the electric-dipole appro...
Chiral light-matter interactions have been investigated for two centuries, leading to the discovery ...
Motivated by recent experiments on circular dichroism in the photoelectron momentum distributions fr...
Circular dichroism and optical rotation are crucial for the characterization of chiral molecules and...