Molecular quantum interface for storing and manipulating ultrashort optical vortex

Light beams carrying orbital angular momentum (OAM) have become over the past few years a subject of widespread interest with unprecedented applications in various fields such as optical communication, super-resolution imaging, optical tweezers, or quantum processing. We demonstrate in the present work that gas-phase molecules can be used as a quantum interface to store an OAM carried by an ultrashort laser pulse. The interplay between spin angular momentum and OAM is exploited to encode the spatial phase information of light beams into rotational coherences of molecules. The embedded spatial structure is restored on-demand with a reading beam by taking advantage of field-free molecular ali…