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Uncertainties in Gapped Graphene

Quantum Physics 2012-03-21 v2 Strongly Correlated Electrons

Abstract

Motivated by graphene-based quantum computer we examine the time-dependence of the position-momentum and position-velocity uncertainties in the monolayer gapped graphene. The effect of the energy gap to the uncertainties is shown to appear via the Compton-like wavelength λc\lambda_c. The uncertainties in the graphene are mainly contributed by two phenomena, spreading and zitterbewegung. While the former determines the uncertainties in the long-range of time, the latter gives the highly oscillation to the uncertainties in the short-range of time. The uncertainties in the graphene are compared with the corresponding values for the usual free Hamiltonian H^free=(p12+p22)/2M\hat{H}_{free} = (p_1^2 + p_2^2) / 2 M. It is shown that the uncertainties can be under control within the quantum mechanical law if one can choose the gap parameter λc\lambda_c freely.

Keywords

Cite

@article{arxiv.1107.5405,
  title  = {Uncertainties in Gapped Graphene},
  author = {Eylee Jung and Kwang S. Kim and DaeKil Park},
  journal= {arXiv preprint arXiv:1107.5405},
  year   = {2012}
}

Comments

12 pages, 11 figures V2: 21 pages, one more author is added. will appear in PRB

R2 v1 2026-06-21T18:42:48.052Z