Effect of Spin Gap on Single-Hole Excitation Spectrum in the One-Dimensional t-J-J'Model

Abstract

We examine the effect of spin gap on single-hole spectral function in the one-dimensional t-J-J'model. At J'/J=1/2, where a dimer state is the ground state, an analytic expression is derived for J/t 0. At finite values of J/t, the numerical diagonalizations for finite-size clusters are performed. In contrast to the gapless case, we find that (i) the dispersion becomes symmetric around k=π/2, (ii) the singularity of the holon band is strongly suppressed, and (iii) the quasi-particle weight Zh becomes finite at finite J/t. The feature (iii) is related to the presence of a bound state of the doped hole and an unpaired spin.

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