Quantum nematic as ground state of a two-dimensional electron gas in a magnetic field
Abstract
We study the ground state of a nematic phase of the two-dimensional electron gas at filling fraction = 1/2 using a variational wavefunction having Jastrow pair-correlations of the form i < j(zi-zj)2 and an elliptical Fermi sea. Using the Fermi hypernetted chain approximation we find that below a critical value of the broken symmetry parameter, the nematic phase is energetically favorable as compared to the isotropic state for the second excited Landau level. We also find that below a critical value of the layer ``thickness'' parameter λ (and in the actual materials) the quantum nematic is energetically favorable relative to the stripe ordered Wigner crystal phase.
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