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Imaging the dynamics of free-electron Landau states

Landau levels and states of electrons in a magnetic field are fundamental quantum entities underlying the quantum-Hall and related effects in condensed matter physics. However, the real-space properties and observation of Landau wave functions remain elusive. Here we report the first real-space observation of Landau states and the internal rotational dynamics of free electrons. States with different quantum numbers are produced using nanometer-size electron vortex beams, with a radius chosen to match the waist of the Landau states, in a quasi-uniform magnetic field. Scanning the beams along the propagation direction, we reconstruct the rotational dynamics of the Landau wave functions with angular frequency ~100 GHz. We observe that Landau modes with different azimuthal quantum numbers belong to three classes, which are characterized by rotations with zero, Larmor, and cyclotron frequencies, respectively. This is in sharp contrast to the uniform cyclotron rotation of classical electrons, and in perfect agreement with recent theoretical predictions.

preprint2014arXivOpen access
P. SchattschneiderTh. SchachingerM. Stöger-PollachS. LöfflerA. Steiger-ThirsfeldK. Y. BliokhF. Nori
cond-mat.mes-hallphysics.opticsquant-ph
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Open access7 authors3 topics
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P. SchattschneiderTh. SchachingerM. Stöger-PollachS. LöfflerA. Steiger-ThirsfeldK. Y. BliokhF. Nori

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