Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
2002-09-06
Phys. Rev. B 67, 115330 (2003)
Physics
Condensed Matter
Strongly Correlated Electrons
20 pages; Submitted to Phys. Rev B
Scientific paper
10.1103/PhysRevB.67.115330
Mean-field theory predicts that bilayer quantum Hall systems at odd integer total filling factors can have stripe ground states in which the top Landau level is occupied alternately by electrons in one of the two layers. We report on an analysis of the properties of these states based on a coupled Luttinger liquid description that is able to account for quantum fluctuations of charge-density and position along each stripe edge. The soft modes associated with the broken symmetries of the stripe state lead to an unusual coupled Luttinger liquid system with strongly enhanced low-temperature heat capacity and strongly suppressed low-energy tunneling density of states. We assess the importance of the intralayer and interlayer back-scattering terms in the microscopic Hamiltonian, which are absent in the Luttinger liquid description, by employing a perturbative renormalization group approach which re-scales time and length along but not transverse to the stripes. With interlayer back-scattering interactions present the Luttinger liquid states are unstable either to an incompressible striped state that has spontaneous interlayer phase coherence and a sizable charge gap even at relatively large layer separations, or to Wigner crystal states. Our quantitative estimates of the gaps produced by back-scattering interactions are summarized in Fig. [phase_diagram] by a schematic phase diagram intended to represent predicted experimental findings in very high mobility bilayer systems at dilution refrigerator temperatures as a function of layer separation and bilayer density balance.
Fisher Matthew P. A.
MacDonald Allan. H.
Papa Emiliano
Schliemann John
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