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Synchronization,zero-resistance states and rotating Wigner crystal |
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| Authors: | A D Chepelianskii A S Pikovsky D L Shepelyansky |
| Institution: | (1) école Normale Supérieure, 45, rue d'Ulm, 75231 Paris Cedex 05, France;(2) Department of Physics, University of Potsdam, Am Neuen Palais 10, D-14469, Potsdam, Germany;(3) Laboratoire de Physique Théorique, UMR 5152 du CNRS, Université Toulouse III, 31062 Toulouse, France |
| Abstract: | We show, in a framework of a classical nonequilibrium model, that rotational angles of electrons moving in two dimensions (2D) in a perpendicular magnetic field can be synchronized by an external microwave field whose frequency is close to the Larmor frequency. The synchronization eliminates collisions between electrons and thus creates a regime with zero diffusion corresponding to the zero-resistance states observed in experiments with high mobility 2D electron gas (2DEG). For long range Coulomb interactions electrons form a rotating hexagonal Wigner crystal. Possible relevance of this effect of synchronization-induced self-assembly for planetary rings is discussed. |
| Keywords: | PACS" target="_blank">PACS 73 40 -c Electronic transport in interface structures 05 45 Xt Synchronization coupled oscillators 05 20 -y Classical statistical mechanics |
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