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Towards a Graphene-Based Quantum Impedance Standard

Mesoscale and Nanoscale Physics 2014-08-25 v4 Other Condensed Matter

Abstract

Precision measurements of the quantum Hall resistance with alternating current (ac) in the kHz range were performed on epitaxial graphene in order to assess its suitability as a quantum standard of impedance. The quantum Hall plateaus measured with alternating current were found to be flat within one part in 10^7. This is much better than for plain GaAs quantum Hall devices and shows that the magnetic-flux-dependent capacitive ac losses of the graphene device are less critical. The observed frequency dependence of about -8x10^-8/kHz is comparable in absolute value to the positive frequency dependence of plain GaAs devices, but the negative sign is attributed to stray capacitances which we believe can be minimized by a careful design of the graphene device. Further improvements thus may lead to a simpler and more user-friendly quantum standard for both resistance and impedance.

Keywords

Cite

@article{arxiv.1406.6211,
  title  = {Towards a Graphene-Based Quantum Impedance Standard},
  author = {C. -C. Kalmbach and J. Schurr and F. J. Ahlers and A. Müller and S. Novikov and N. Lebedeva and A. Satrapinski},
  journal= {arXiv preprint arXiv:1406.6211},
  year   = {2014}
}
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