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Literature DB >> 23745899

Helical edge resistance introduced by charge puddles.

Jukka I Väyrynen¹, Moshe Goldstein, Leonid I Glazman.

Abstract

We study the influence of electron puddles created by doping of a 2D topological insulator on its helical edge conductance. A single puddle is modeled by a quantum dot tunnel coupled to the helical edge. It may lead to significant inelastic backscattering within the edge because of the long electron dwelling time in the dot. We find the resulting correction to the perfect edge conductance. Generalizing to multiple puddles, we assess the dependence of the helical edge resistance on the temperature and doping level and compare it with recent experimental data.

Year: 2013 PMID： 23745899 DOI： 10.1103/PhysRevLett.110.216402

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

1. Imaging currents in HgTe quantum wells in the quantum spin Hall regime.

Authors: Katja C Nowack; Eric M Spanton; Matthias Baenninger; Markus König; John R Kirtley; Beena Kalisky; C Ames; Philipp Leubner; Christoph Brüne; Hartmut Buhmann; Laurens W Molenkamp; David Goldhaber-Gordon; Kathryn A Moler
Journal: Nat Mater Date: 2013-06-16 Impact factor: 43.841

Helical edge resistance introduced by charge puddles.

1. Imaging currents in HgTe quantum wells in the quantum spin Hall regime.

2. Gate-controlled topological conducting channels in bilayer graphene.

3. Quantum Transport of Dirac Fermions in HgTe Gapless Quantum Wells.

4. Enhanced electron dephasing in three-dimensional topological insulators.

5. Electronic thermal conductivity in 2D topological insulator in a HgTe quantum well.

6. Engineering topological phases in triple HgTe/CdTe quantum wells.