Dichotomy in underdoped high Tc superconductors and spinon-dopon approach to t-t'-t''-J model
Abstract
We studied underdoped high Tc superconductors using a spinon-dopon approach (or doped-carrier approach) to t-t'-t''-J model, where spinon carries spin and dopon carries both spin and charge. In this approach, the mixing of spinon and dopon describes superconductivity. We found that a nonuniform mixing in k-space is most effective in lowering the t' and t'' hopping energy. We showed that at mean-field level, the mixing is proportional to quasiparticle spectral weight Z-. We also found a simple monte-carlo algorithm to calculate Z- from the projected spinon-dopon wavefunction, which confirms the mean-field result. Thus the non-uniform mixing caused by t' and t" explains the different electron spectral weights near the nodal and anti-nodal points ( i.e. the dichotomy) observed in underdoped high Tc superconductors. For hole-doped sample, we found that Z is enhanced in the nodal region and suppressed in the anti-nodal region. For electron doped sample, the same approach leads to a suppressed Z in the nodal region and enhanced in the anti-nodal region, in agreement with experimental observations.
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