Dichroic Electron Emission Patterns from Oriented Helium Ions

Abstract

We report a joint experimental and theoretical study using a combination of polarization-controlled free-electron-laser (FEL) and near-infra\-red (NIR) pulses in a synchronized two-color photo\-ionization scheme. Excited He+ ions, created by extreme ultraviolet (XUV) circularly polarized radiation from the XUV-FEL FERMI in the oriented 3p\, (m\!=\!+1) state, are exposed to circularly polarized 784-nm NIR radiation with peak intensities from 1012\, W/cm2 to 1013\,W/cm2. The angular distribution of the ejected electrons exhibit a strong dichroism depending on the NIR intensity. While the co-rotating case is defined by a single path, for the counter-rotating case, there are two dominant pathways whose relative strength and phase difference are determined.