Composite fermions close to the one-half filling of the lowest Landau level revisited
Abstract
By strictly adhering to the microscopic theory of composite fermions for the Landau-level filling fractions nue = p/(2 p + 1), we reproduce, with remarkable accuracy, the surface-acoustic-wave (SAW)-based experimental results by Willett and co-workers concerning two-dimensional electron systems with nue close to 1/2. Our results imply that the electron band mass mb, as distinct from the composite fermion mass m*, must undergo a substantial increase under the conditions corresponding to nue approximately equal to 1/2. In view of the relatively low aerial electronic densities ne to which the underlying SAW experiments correspond, our finding conforms with the experimental results by Shashkin et al. [Phys. Rev. B 66, 073303 (2002)], concerning two-dimensional electrons in silicon, that signal sharp increase in mb for ne decreasing below approximately 2 x 1011 cm-2. We further establish that a finite mean-free path l0 is essential for the observed linearity of the longitudinal conductivity sigmaxx(q) as deduced from the SAW velocity shifts.
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