Proliferation of neutral modes in fractional quantum Hall states

The fractional quantum Hall effect is a canonical example of topological phases. While electric currents flow downstream in edge modes, neutral edge modes, observed only in hole-conjugate states and in ν =5/2, flow upstream. It is believed that the latter transport results from multiple counter-prop...

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Published inNature communications Vol. 5; no. 1; p. 4067
Main Authors Inoue, Hiroyuki, Grivnin, Anna, Ronen, Yuval, Heiblum, Moty, Umansky, Vladimir, Mahalu, Diana
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 06.06.2014
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Abstract The fractional quantum Hall effect is a canonical example of topological phases. While electric currents flow downstream in edge modes, neutral edge modes, observed only in hole-conjugate states and in ν =5/2, flow upstream. It is believed that the latter transport results from multiple counter-propagating channels—mixed by disorder that is accompanied by Coulomb interaction. Here we report on sensitive shot noise measurements that reveal unexpected presence of neutral modes in non-hole-conjugate fractional states; however, not in the integer states. Furthermore, the incompressible bulk is also found to allow energy transport. While density reconstructions along the edge may account for the energy carrying edge modes, the origin of the bulk energy modes is unidentified. The proliferation of neutral modes changes drastically the accepted transport picture of the fractional quantum Hall effects. Their apparent ubiquitous presence may explain the lack of interference of fractional quasiparticles—preventing observation of fractional statistics. The accepted picture of transport in the fractional quantum Hall effect regime is that neutral modes are present only in hole-conjugate fractional states. Inoue et al. show the presence of upstream neutral modes and energy transport through the bulk in all tested non-hole-conjugate fractional states.
AbstractList The fractional quantum Hall effect is a canonical example of topological phases. While electric currents flow downstream in edge modes, neutral edge modes, observed only in hole-conjugate states and in ν=5/2, flow upstream. It is believed that the latter transport results from multiple counter-propagating channels-mixed by disorder that is accompanied by Coulomb interaction. Here we report on sensitive shot noise measurements that reveal unexpected presence of neutral modes in non-hole-conjugate fractional states; however, not in the integer states. Furthermore, the incompressible bulk is also found to allow energy transport. While density reconstructions along the edge may account for the energy carrying edge modes, the origin of the bulk energy modes is unidentified. The proliferation of neutral modes changes drastically the accepted transport picture of the fractional quantum Hall effects. Their apparent ubiquitous presence may explain the lack of interference of fractional quasiparticles-preventing observation of fractional statistics.
The fractional quantum Hall effect is a canonical example of topological phases. While electric currents flow downstream in edge modes, neutral edge modes, observed only in hole-conjugate states and in ν=5/2, flow upstream. It is believed that the latter transport results from multiple counter-propagating channels-mixed by disorder that is accompanied by Coulomb interaction. Here we report on sensitive shot noise measurements that reveal unexpected presence of neutral modes in non-hole-conjugate fractional states; however, not in the integer states. Furthermore, the incompressible bulk is also found to allow energy transport. While density reconstructions along the edge may account for the energy carrying edge modes, the origin of the bulk energy modes is unidentified. The proliferation of neutral modes changes drastically the accepted transport picture of the fractional quantum Hall effects. Their apparent ubiquitous presence may explain the lack of interference of fractional quasiparticles-preventing observation of fractional statistics.The fractional quantum Hall effect is a canonical example of topological phases. While electric currents flow downstream in edge modes, neutral edge modes, observed only in hole-conjugate states and in ν=5/2, flow upstream. It is believed that the latter transport results from multiple counter-propagating channels-mixed by disorder that is accompanied by Coulomb interaction. Here we report on sensitive shot noise measurements that reveal unexpected presence of neutral modes in non-hole-conjugate fractional states; however, not in the integer states. Furthermore, the incompressible bulk is also found to allow energy transport. While density reconstructions along the edge may account for the energy carrying edge modes, the origin of the bulk energy modes is unidentified. The proliferation of neutral modes changes drastically the accepted transport picture of the fractional quantum Hall effects. Their apparent ubiquitous presence may explain the lack of interference of fractional quasiparticles-preventing observation of fractional statistics.
The fractional quantum Hall effect is a canonical example of topological phases. While electric currents flow downstream in edge modes, neutral edge modes, observed only in hole-conjugate states and in ν =5/2, flow upstream. It is believed that the latter transport results from multiple counter-propagating channels—mixed by disorder that is accompanied by Coulomb interaction. Here we report on sensitive shot noise measurements that reveal unexpected presence of neutral modes in non-hole-conjugate fractional states; however, not in the integer states. Furthermore, the incompressible bulk is also found to allow energy transport. While density reconstructions along the edge may account for the energy carrying edge modes, the origin of the bulk energy modes is unidentified. The proliferation of neutral modes changes drastically the accepted transport picture of the fractional quantum Hall effects. Their apparent ubiquitous presence may explain the lack of interference of fractional quasiparticles—preventing observation of fractional statistics. The accepted picture of transport in the fractional quantum Hall effect regime is that neutral modes are present only in hole-conjugate fractional states. Inoue et al. show the presence of upstream neutral modes and energy transport through the bulk in all tested non-hole-conjugate fractional states.
ArticleNumber 4067
Author Inoue, Hiroyuki
Umansky, Vladimir
Ronen, Yuval
Grivnin, Anna
Heiblum, Moty
Mahalu, Diana
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  surname: Inoue
  fullname: Inoue, Hiroyuki
  organization: Department of Condensed Matter Physics, Braun Center for Submicron Research, Weizmann Institute of Science
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  givenname: Anna
  surname: Grivnin
  fullname: Grivnin, Anna
  organization: Department of Condensed Matter Physics, Braun Center for Submicron Research, Weizmann Institute of Science
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  givenname: Yuval
  surname: Ronen
  fullname: Ronen, Yuval
  organization: Department of Condensed Matter Physics, Braun Center for Submicron Research, Weizmann Institute of Science
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  givenname: Moty
  surname: Heiblum
  fullname: Heiblum, Moty
  email: moty.heiblum@weizmann.ac.il
  organization: Department of Condensed Matter Physics, Braun Center for Submicron Research, Weizmann Institute of Science
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  givenname: Vladimir
  surname: Umansky
  fullname: Umansky, Vladimir
  organization: Department of Condensed Matter Physics, Braun Center for Submicron Research, Weizmann Institute of Science
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  givenname: Diana
  surname: Mahalu
  fullname: Mahalu, Diana
  organization: Department of Condensed Matter Physics, Braun Center for Submicron Research, Weizmann Institute of Science
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Snippet The fractional quantum Hall effect is a canonical example of topological phases. While electric currents flow downstream in edge modes, neutral edge modes,...
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Title Proliferation of neutral modes in fractional quantum Hall states
URI https://link.springer.com/article/10.1038/ncomms5067
https://www.ncbi.nlm.nih.gov/pubmed/24905981
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