Spin Susceptibility and Gap Structure of the Fractional-Statistics Gas
Abstract
This paper establishes and tests procedures which can determine the electron energy gap of the high-temperature superconductors using the t\!-\!J model with spinon and holon quasiparticles obeying fractional statistics. A simpler problem with similar physics, the spin susceptibility spectrum of the spin 1/2 fractional-statistics gas, is studied. Interactions with the density oscillations of the system substantially decrease the spin gap to a value of (0.2 0.2) ωc, much less than the mean-field value of ωc. The lower few Landau levels remain visible, though broadened and shifted, in the spin susceptibility. As a check of the methods, the single-particle Green's function of the non-interacting Bose gas viewed in the fermionic representation, as computed by the same approximation scheme, agrees well with the exact results. The same mechanism would reduce the gap of the t\!-\!J model without eliminating it.
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