Quantum to classical crossover under dephasing effects in a two-dimensional percolation model |
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| Authors: | Junjie Qi Haiwen Liu Chui-Zhen Chen Hua Jiang X.C.Xie |
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| Affiliation: | International Center for Quantum Materials and School of Physics;Collaborative Innovation Center of Quantum Matter;Center for Advanced Quantum Studies;Institute for Advanced Study and School of Physical Science and Technology |
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| Abstract: | ![]()
Scaling theory predicts complete localization in d = 2 in quantum systems belonging to the orthogonal class(i.e., with timereversal symmetry and spin-rotation symmetry). The conductance g behaves as g ~ exp(-L/l) with system size L and localization length l in the strong disorder limit. However, classical systems can always have metallic states in which Ohm’s law shows a constant g in d = 2. We study a two-dimensional quantum percolation model by controlling dephasing effects. The numerical investigation of g aims at simulating a quantum-to-classical percolation evolution. An unexpected metallic phase, where g increases with L, generates immense interest before the system becomes completely classical. Furthermore, the analysis of the scaling plot of g indicates a metal-insulator crossover. |
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| Keywords: | quantum percolation model dephasing effects metal-insulator crossover |
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