arXiv:0806.4884 Abstract | arXiv Analytics

arXiv:0806.4884 [cond-mat.dis-nn]Abstract References Reviews Resources

Quantum chaos in disordered graphene

Published 2008-06-30Version 1

We have studied numerically the statistics for electronic states (level-spacings and participation ratios) from disordered graphene of finite size, described by the aspect ratio $W/L$ and various geometries, including finite or torroidal, chiral or achiral carbon nanotubes. Quantum chaotic Wigner energy level-spacing distribution is found for weak disorder, even infinitesimally small disorder for wide and short samples ($W/L>>1$), while for strong disorder Anderson localization with Poisson level-statistics always sets in. Although pure graphene near the Dirac point corresponds to integrable ballistic statistics chaotic diffusive behavior is more common for realistic samples.

Comments: 5 pages 3 figures. (for high resolution figures send an e-mail to i.amanatidis@lancs.ac.uk)

DOI: 10.1103/PhysRevB.79.205420

Categories: cond-mat.dis-nn

Subjects: 73.22.Dj, 73.63.-b, 73.20.Fz, 81.05.Uw

Keywords: disordered graphene, quantum chaos, wigner energy level-spacing distribution, chaotic wigner energy level-spacing, ballistic statistics chaotic diffusive behavior

Tags: journal article

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