Elementary Excitations of One-Dimensional t-J Model with Inverse-Square Exchange
Abstract
We identify exact excitation content of the intermediate states for the one-particle Green's functions, spin-spin and (charge) density-density correlation functions of the periodic one-dimensional t-J model with inverse square exchange. The excitations consist of neutral S=1/2 spinons and spinless (charge -e) holons with semionic fractional statistics, and bosonic (charge +2e) ``anti-holons'' which are excitations of the holon condensate. Due to the supersymmetric Yangian quantum symmetry of this model, only the excited states with finite number of elementary excitations contribute to the spectral functions. We find a set of selection rules, and this allows us to map out the regions of non-vanishing spectral weight in the energy-momentum space for the various correlation functions.
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