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arxiv: 2105.03639 · v3 · pith:BMQJULIPnew · submitted 2021-05-08 · ❄️ cond-mat.str-el · cond-mat.supr-con

Monte Carlo study of the pseudogap and superconductivity emerging from quantum magnetic fluctuations

classification ❄️ cond-mat.str-el cond-mat.supr-con
keywords fluctuationspseudogapquantumbehaviorsystemcarloemergingfermionic
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The origin of the pseudogap behavior, found in many high-$T_c$ superconductors, remains one of the greatest puzzles in condensed matter physics. One possible mechanism is fermionic incoherence, which near a quantum critical point allows pair formation but suppresses superconductivity. Employing quantum Monte Carlo simulations of a model of itinerant fermions coupled to ferromagnetic spin fluctuations, represented by a quantum rotor, we report numerical evidence of pseudogap behavior, emerging from pairing fluctuations in a quantum-critical non-Fermi liquid. Specifically, we observe enhanced pairing fluctuations and a partial gap opening in the fermionic spectrum. However, the system remains non-superconducting until reaching a much lower temperature. In the pseudogap regime the system displays a "gap-filling" rather than "gap-closing" behavior, consistent with experimental observations. Our results provide the first unambiguous lattice model realization of a pseudogap state in a strongly correlated system, driven by superconducting fluctuations.

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