An incompressible state of a photo-excited electron gas

Alexei D. Chepelianskii*, Masamitsu Watanabe, Kostyantyn Nasyedkin, Kimitoshi Kono, Denis Konstantinov

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

40 Scopus citations

Abstract

Two-dimensional electrons in a magnetic field can form new states of matter characterized by topological properties and strong electronic correlations as displayed in the integer and fractional quantum Hall states. In these states, the electron liquid displays several spectacular characteristics, which manifest themselves in transport experiments with the quantization of the Hall resistance and a vanishing longitudinal conductivity or in thermodynamic equilibrium when the electron fluid becomes incompressible. Several experiments have reported that dissipationless transport can be achieved even at weak, non-quantizing magnetic fields when the electrons absorb photons at specific energies related to their cyclotron frequency. Here we perform compressibility measurements on electrons on liquid helium demonstrating the formation of an incompressible electronic state under these resonant excitation conditions. This new state provides a striking example of irradiation-induced self-organization in a quantum system.

Original languageEnglish
Article number7210
Number of pages7
JournalNature Communications
Volume6
DOIs
StatePublished - May 2015

Keywords

  • ZERO-RESISTANCE STATES
  • LIQUID-HELIUM
  • PHOTOGALVANIC CURRENT
  • MAGNETOCONDUCTIVITY
  • EXCITATION
  • TRANSPORT
  • WAVE

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