Influence of gauge-field fluctuations on composite fermions near the half-filled state
Abstract
Taking into account the transverse gauge field fluctuations, which interact with composite fermions, we examine the finite temperature compressibility of the fermions as a function of an effective magnetic field B = B - 2 ne hc/e (ne is the density of electrons) near the half-filled state. It is shown that, after including the lowest order gauge field correction, the compressibility goes as ∂ n ∂ μ e- ωc / 2 T ( 1 + A (η) η - 1 ( ωc)2 1 + η T ) for T ωc, where ωc = e B mc. Here we assume that the interaction between the fermions is given by v ( q) = V0 / q2 - η \ (1 η 2), where A (η) is a η dependent constant. This result can be interpreted as a divergent correction to the activation energy gap and is consistent with the divergent renormalization of the effective mass of the composite fermions.
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