Doublon-Holon Pairing State in Photodoped Mott Insulators
Abstract
We demonstrate the existence of an unconventional pairing state in photodoped Mott insulators on ladder and quasi-two-dimensional geometries, characterized by quasi-long-range doublon-holon correlations that signal Mott exciton condensation. The doublon-holon pairing exhibits correlations of d-wave-like symmetry, reminiscent of superconducting pairing in chemically doped Mott insulators. By constructing the phase diagram, using density matrix renormalization group, we reveal that the doublon-holon pairing state in the photodoped ladder emerges between the spin-singlet, charge-density-wave, and η-pairing phases. Our study suggests that the interplay of charge, spin, and η-spin degrees of freedom can give rise to exotic quantum many-body states in photodoped Mott insulators.
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