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Enlarged magnetic focusing radius of photoinduced ballistic currents

We exploit GaAs-based quantum point contacts as mesoscopic detectors to analyze the ballistic flow of photogenerated electrons in a two-dimensional electron gas at a perpendicular magnetic field. Whereas charge transport experiments always measure the classical cyclotron radius, we show that this changes dramatically when detecting the photoinduced non-equilibrium current in magnetic fields. The experimentally determined radius of the trajectories surprisingly exceeds the classical cyclotron value by far. Monte Carlo simulations suggest electron-electron scattering as the underlying reason.

preprint2012arXivOpen access
Markus StallhoferChristoph KastlMarcel BrändleinDieter SchuhWerner WegscheiderJörg. P. KotthausGerhard AbstreiterAlexander Holleitner
cond-mat.mes-hall
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Open access8 authors1 topic
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Markus StallhoferChristoph KastlMarcel BrändleinDieter SchuhWerner WegscheiderJörg. P. KotthausGerhard AbstreiterAlexander Holleitner

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