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Local current distribution at large quantum dots (QDs): a self-consistent screening model

Mesoscale and Nanoscale Physics 2009-11-13 v1
Authors: P. M. Krishna , A. Siddiki , K. Guven , T. Hakioglu
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Abstract

We report the implementation of the self-consistent Thomas-Fermi screening theory, together with the local Ohm's law to a quantum dot system in order to obtain local current distribution within the dot and at the leads. We consider a large dot (size >700>700 nm) defined by split gates, and coupled to the leads. Numerical calculations show that the non-dissipative current is confined to the incompressible strips. Due to the non-linear screening properties of the 2DES at low temperatures, this distribution is highly sensitive to external magnetic field. Our findings support the phenomenological models provided by the experimental studies so far, where the formation of the (direct) edge channels dominate the transport.

Keywords

quantum dots quantum wires

Cite

@article{arxiv.0707.1228,
  title  = {Local current distribution at large quantum dots (QDs): a self-consistent screening model},
  author = {P. M. Krishna and A. Siddiki and K. Guven and T. Hakioglu},
  journal= {arXiv preprint arXiv:0707.1228},
  year   = {2009}
}

Comments

6 Pages, 2 Figures

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