Matthias Lopez, Jean-François Clément, Pascal Szriftgiser, Jean Claude Garreau, Dominique Delande
Published 2011-08-02Version 1
We experimentally test the universality of the Anderson three dimensional metal-insulator transition. Nine sets of parameters controlling the microscopic details of this second order phase transition have been tested. The corresponding critical exponents are independent (within $2\sigma$) of these microscopic details, and the average value $1.63\pm0.05$ is in very good agreement with the numerically predicted value, $\nu = 1.58$.
Comments: 4 pages, 3 figures, 1 table
Journal: Physical Review Letters 108, 9 (2012) 095701
Experimental observation of the Anderson transition with atomic matter waves
Experimental test of nonclassicality for a single particle
Local hidden-variable model for a recent experimental test of quantum nonlocality and local contextuality
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