Quasiparticle structure and coherent propagation in the t-Jz-J model

Abstract

Numerical studies, from variational calculation to exact diagonalization, all indicate that the quasiparticle generated by introducing one hole into a two-dimensional quantum antiferromagnet has the same nature as a string state in the t-Jz model. Based on this observation, we attempt to visualize the quasiparticle formation and subsequent coherent propagation at low energy by studying the generalized t-Jz-J model in which we first diagonalize the t-Jz model and then perform a degenerate perturbation in J. We construct the quasiparticle state and derive an effective Hamiltonian describing the coherent propagation of the quasiparticle and its interaction with the spin wave excitations in the presence of the N\'eel order. We expect that qualitative properties of the quasiparticle remain intact when analytically continuing J from the anisotropic J < Jz to the isotropic J = Jz limit, despite the fact that the spin wave excitations change from gapful to gapless. Extrapolating to J=Jz, our quasiparticle dispersion and spectral weight compare well with the exact numerical results for small clusters.

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