Research Advances in Quantum Dynamics 2016
DOI: 10.5772/62926
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Linking Non-equilibrium Transport with the Many Particle Fermi Sea in the Quantum Hall Regime

Abstract: Tνe communξcatξon of tνe electron system wξtν tνe outsξde world at low excξtatξon transport experξments νappens by excνangξng electrons at tνe Fermξ level. We argue tνat tνe locatξons wνere tνξs ξs possξble ξn tνe quantum Hall effect regξme are tνe so-called edge cνannels. We explaξn tνat tνese cνannels can be understood as a more general representatξon of tνe many-partξcle quantum Hall QH system close to equξlξbrξum tνat allows descrξbξng transport due to non-equξlξbrξum on a very fundamental level. "ased on … Show more

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Cited by 2 publications
(4 citation statements)
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“…In order to avoid any violation of the physics of coherent many-particle quantum transport, the model also must not make explicit use of single-carrier flow. We have shown previously that our non-equilibrium network model (NNM) [20] is able to meet these requirements [21,22]. We find that partially filled LLs appear as a mixture of clusters of locally full and empty LLs in contradistinction to the Thomas-Fermi approximation by CSG.…”
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confidence: 75%
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“…In order to avoid any violation of the physics of coherent many-particle quantum transport, the model also must not make explicit use of single-carrier flow. We have shown previously that our non-equilibrium network model (NNM) [20] is able to meet these requirements [21,22]. We find that partially filled LLs appear as a mixture of clusters of locally full and empty LLs in contradistinction to the Thomas-Fermi approximation by CSG.…”
mentioning
confidence: 75%
“…The cluster boundaries and the boundaries of the fully filled LLs at the sample edge are the only regions where the many-particle electron system can exchange carriers close to equilibrium as in low excitation magneto-transport experiments. As a consequence, these boundaries are experimentally observed as transport channels [22]. The observed behavior during population and depopulation results from a tendency of the many-particle system to avoid the simultaneous appearance of partially filled spin-up and spin-down LLs.…”
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confidence: 97%
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“…1 exhibit much less fluctuations around the transitions, it must be emphasized that this is due to effectively averaging over many more nodes in the network. Furthermore, for the implementation of the procedure, an ad-hoc assumption has to be made about how to go from the computed charge densities in the HF approach to the transmittivity of a dissipative saddle-point in the NNM [17,18,19,20]. Effectively, this rules out the determination of the critical properties of the QH transition [1] from the NNM.…”
Section: Transport Resultsmentioning
confidence: 99%