Stability and effective masses of composite-fermions in the first and second Landau Level
Abstract
We propose a measure of the stability of composite fermions (CF's) at even-denominator Landau-level filling fractions. Assuming Landau-level mixing effects are not strong, we show that the CF liquid at =2+1/2 in the n=1 Landau level cannot exist and relate this to the absence of a hierarchy of incompressible states for filling fractions 2+1/3 < < 2+2/3. We find that a polarized CF liquid should exist at =2+1/4. We also show that, for CF states, the variation with system size of the ground state energy of interacting electrons follows that for non-interacting particles in zero magnetic field. We use this to estimate the CF effective masses.
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