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Spin-valley blockade in carbon nanotube double quantum dots

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2010

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http://nbn-resolving.de/urn:nbn:de:bsz:352-248134
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http://arxiv.org/abs/1005.2738

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We present a theoretical study of the Pauli or spin-valley blockade for double quantum dots in semiconducting carbon nanotubes. In our model we take into account the following characteristic features of carbon nanotubes: (i) fourfold (spin and valley) degeneracy of the quantum dot levels, (ii) the intrinsic spin-orbit interaction which is enhanced by the tube curvature, and (iii) valley-mixing due to short-range disorder, i.e., substitutional atoms, adatoms, etc. We find that the spin-valley blockade can be lifted in the presence of short-range disorder, which induces two independent random (in magnitude and direction) valley-Zeeman-fields in the two dots, and hence acts similarly to hyperfine interaction in conventional semiconductor quantum dots. In the case of strong spin-orbit interaction, we identify a parameter regime where the current as the function of an applied axial magnetic field shows a zero-field dip with a width controlled by the interdot tunneling amplitude, in agreement with recent experiments.

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ISO 690PÁLYI, András, Guido BURKARD, 2010. Spin-valley blockade in carbon nanotube double quantum dots
BibTex
@unpublished{Palyi2010Spinv-24813,
  year={2010},
  title={Spin-valley blockade in carbon nanotube double quantum dots},
  author={Pályi, András and Burkard, Guido}
}
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