Dynamical properties of the single--hole t--J model on a 32--site square lattice
Abstract
We present results of an exact diagonalization calculation of the spectral function A( k, ω) for a single hole described by the t--J model propagating on a 32--site square cluster. The minimum energy state is found at a crystal momentum k = (π 2, π 2), consistent with theory, and our measured dispersion relation agrees well with that determined using the self--consistent Born approximation. In contrast to smaller cluster studies, our spectra show no evidence of string resonances. We also make a qualitative comparison of the variation of the spectral weight in various regions of the first Brillouin zone with recent ARPES data.
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