Demonstration of electron helical dichroism as a local probe of chirality

Abstract

We report observation of electron helical dichroism on a material with chiral structure. In analogy with circular dichroism, a common technique for molecular structural fingerprinting, we use a nanofabricated forked diffraction grating to prepare electron vortex beams with opposite orbital angular momenta incident upon metal nanoparticle clusters and post-select for a zero-orbital angular momentum final state. We observe a difference in the differential scattering probability for orbital angular momentum transfer from vortices with opposite handedness incident on chiral aluminum nanoparticle clusters at 3.5 0.8 eV. We suggest that the observed electron helical dichroism is due to excitation of surface plasmon vortices. Electron helical dichroism enables chirality measurement with unprecedented spatial resolution over a broad range of energies.