2D Electron Gas Subject to Inhomogeneous Magnetic Fields: Current Oscillations, the Role of Spin and Non-Landau Quantization
ORAL
Abstract
We demonstrate numerical and analytical results for a 2D electron gas in an inhomogeneous magnetic field. The coexistence of solid state and atomistic properties is caused by field induced localisation effects. In contrast to the paradigmatic Landau setting for homogeneous magnetic fields, we will demonstrate that the Zeeman (Spin) interaction becomes a highly relevant contribution, which gives rise to non-trivial orbital and spin currents. Resulting modifications of the Landau level structure and emerging density fluctuations are investigated.
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Publication: Sidler D., Rokaj V., Ruggenthaler M. and Rubio A. ``2D Electron Gas Subject to Inhomogeneous Magnetic Fields: Analytic Solution, the Role of Spin and Non-Landau Quantization", in prep.
Presenters
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Dominik Sidler
Max Planck Institute for the Structure & Dynamics of Matter
Authors
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Dominik Sidler
Max Planck Institute for the Structure & Dynamics of Matter
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Michael Ruggenthaler
Max Planck Institute for the Structure and Dynamics of Matter
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Vasilis Rokaj
Max Planck Institute for the Structure and Dynamics of Matter
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Angel Rubio
Max Planck Institute for the Structure &, Max Planck Institute for the Structure and Dynamics of Matter, Hamburg Germany; Center for Computational Quantum Physics (CCQ), The Flatiron Institute, New York, USA