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Ultrafast Preparation and Detection of Ring Currents in Single Atoms

Quantum particles can penetrate potential barriers by tunneling (1). If that barrier is rotating, the tunneling process is modified (2,3). This is typical for electrons in atoms, molecules or solids exposed to strong circularly polarized laser pulses (4,5). Here we measure how the transmission probability through a rotating tunnel depends on the sign of the magnetic quantum number m of the electron and thus on the initial sense of rotation of its quantum phase. We further show that the electron keeps part of that rotary motion on its way through the tunnel by measuring m-dependent modification of the electron emission pattern. These findings are relevant for attosecond metrology as well as for interpretation of strong field electron emission from atoms and molecules (6-13) and directly demonstrates the creation of ring currents in bound states of ions with attosecond precision. In solids, this could open a way to inducing and controlling ring-current related topological phenomena (14).

preprint2018arXivOpen access
Sebastian EckartMaksim KunitskiMartin RichterAlexander HartungJonas RistFlorian TrinterKilian FehreNikolai SchlottKevin HenrichsLothar Ph. H. SchmidtTill JahnkeMarkus SchöfflerKunlong LiuIngo BarthJivesh KaushalFelipe MoralesMisha IvanovOlga SmirnovaReinhard Dörner
physics.atom-ph
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Sebastian EckartMaksim KunitskiMartin RichterAlexander HartungJonas RistFlorian TrinterKilian FehreNikolai SchlottKevin HenrichsLothar Ph. H. SchmidtTill JahnkeMarkus SchöfflerKunlong LiuIngo BarthJivesh KaushalFelipe MoralesMisha IvanovOlga SmirnovaReinhard Dörner

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