Pontus Laurell, Bradraj Pandey, Gábor B. Halász, Satoshi Okamoto, Gonzalo Alvarez, Elbio Dagotto
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引用次数: 0
Abstract
We study the impact of hole-doping on the Kitaev-Heisenberg model on the
honeycomb lattice. We investigate the pairing tendencies and correlation
functions in the framework of a $t-J-K$ model using density matrix
renormalization group calculations on three-leg cylinders. In the case of the
pure Kitaev model, which realizes a quantum spin-liquid phase at half-filling,
we find that binding of two holes only occurs at low values of the hopping,
where the holes are slow. We have theoretically verified that pair formation
occurs in the limit of immobile holes, where the pure Kitaev model remains
exactly solvable. When we instead fix the hopping at an intermediate, more
realistic, value, and vary the Heisenberg and Kitaev interaction strengths, we
find pairing tendencies only in the N\'eel phase. This is in contrast to prior
mean-field calculations, highlighting the importance of accounting for the
kinetic energy of dopants in generalized Kitaev models. Interestingly, we also
find signatures of pair-density wave formation over the studied range of model
parameters, namely a periodic modulation of the charge density as well as the
spin-spin and pair-pair correlations in real space. Moreover, we present a
comparative study of the different correlations as a function of doping. We
finally discuss the potential for experimentally observing the studied physics
in quantum materials and heterostructures.
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