▎ 摘　　要

Conductance fluctuations in graphene nanoribbons with a disordered, short-range potential are numerically studied. The authors carry out Fermi energy sweeps at different magnetic fields and magnetic field sweeps at a fixed Fermi energy to examine whether universality and ergodicity hold in graphene. The authors find that there is no universality of the fluctuations. The amplitude of fluctuations has a dependence on disorder strength. Further, Fermi energy sweeps have stronger fluctuation amplitudes than magnetic field sweeps, demonstrating a lack of ergodicity. In addition, the magnetic field does not significantly affect the fluctuation amplitude of Fermi energy sweeps. (C) 2015 American Vacuum Society.